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Algebra for all and its relationship to English learner's opportunity-to-learn and algebra I success rates
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Algebra for all and its relationship to English learner's opportunity-to-learn and algebra I success rates
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Content
Running Head: ALGEBRA FOR ALL 1
ALGEBRA FOR ALL AND ITS RELATIONSHIP TO ENGLISH LANGUAGE
LEARNER’S OPPORTUNITY-TO-LEARN AND ALGEBRA I SUCCESS RATES
by
Velma Veith
A Dissertation Presented to the
FACULTY OF THE USC ROSSIER SCHOOL OF EDUCATION
UNIVERSITY OF SOUTHERN CALIFORNIA
In Partial Fulfillment of the
Requirements for the Degree
DOCTOR OF EDUCATION
May 2013
Copyright 2013 Velma Veith
ALGEBRA FOR ALL 2
Dedication
Thank you Lord Jesus Christ, for guiding my path as I pursued my dream of
achieving a doctorate level of education; I feel like I have self-actualized. I will use this
achievement to your glory and honor.
I would like to dedicate this dissertation to my mother Margarita Veith and to
both my children, Daniel R. Ortiz and Lauren V. Bartels.
Mom, you have always been a source of strength for me, and, if it were not for
you helping me in so many ways along my journey towards higher education, I could not
have made it this far. Your sacrifices in life were not in vain. I know I have made you
proud.
Daniel and Lauren, both of you bring so much joy and happiness to my life; I am
so blessed to have such a loving and supportive family. My great love for both of you
inspires my work ethic, determination in life and goal-oriented attitude, as I desire to
provide you with opportunities I did not have, so that, as a family, we may together
prosper in life. This accomplishment means a lot to me because it represents the
achievement of many years of dedication as I raised you both while continuing to attend
school. I pray you will both follow in your mother’s footsteps by always striving to be
your best and never giving up on attaining your dreams.
To my whole family, thank you so much for the years of support and for loving
and helping me in whatever I needed along the way. I’m so excited to be the first one in
our family to reach this level of education.
To my beloved father, Daniel Veith, although you are no longer here in person,
you are with me in spirit, and I know you would have been so proud to see your daughter
ALGEBRA FOR ALL 3
be hooded as a doctoral student. I was motivated by you to obtain a Master’s degree, and
now I have gone above and beyond that goal as I have faced my fears and challenges.
This one is for me!
ALGEBRA FOR ALL 4
Acknowledgements
I appreciate all the USC Professors I have had, as they have each handed down
their wisdom and practical teachings in order that I may become a better leader for the
betterment of children, our gifts from God, for whom we have the great responsibility of
raising them well. In my quest of determining my research focus, I came to know Dr.
Hocevar, as he was my research methods professor. I knew then he was exceptional.
I would like to take this time to honor and acknowledge my dissertation chair,
Professor Dennis Hocevar. He was the perfect guiding and instrumental force that
inspired me to do my best throughout the dissertation process. His love for education and
mentorship was transparent, as he was patient, paid attention to detail, provided statistical
expertise, and guided me to completion with his transformational leadership style. I
greatly appreciate his kindness, sense of humor, and the professional relationship we
developed. He is and always will be unforgettable as he shared with me one of the most
important experiences in my life. Thank you, Dr. Hocevar, because, with your help, I
reached my dream, and I may now go on to achieve my potential in life, as this degree
awards me many more opportunities I would have otherwise not been entitled to. I look
forward to giving back to the community and discovering more that life has to offer.
Thank you, Professor Pedro Garcia, for serving as a committee member. I
appreciate the time you dedicated and the thought provoking questions and feedback;
your words of wisdom are valuable to me. As my diversity professor, your stories and
class assignments will forever inspire me. I admire your willingness to extend yourself to
your students beyond the classroom, as I was able to attend your 50
th
U.S. Citizenship
ALGEBRA FOR ALL 5
Celebration. Your life achievements and ability to overcome obstacles are an inspiration
to me.
Thank you Dr. Francisca Owoaje, for serving as a committee member, I
appreciate your attention to detail in regards to my dissertation and your high
expectations of me. Your leadership strength, positive energy, and encouragement
provided me the perfect blend of compassion and inspiration needed for me to press
forward.
This was an amazing experience. I thank you all for contributing to this special
accomplishment in my life.
ALGEBRA FOR ALL 6
Table of Contents
Dedication 2
Acknowledgements 4
List of Tables 8
List of Figures 9
Abstract 10
Chapter 1: The Problem 13
Introduction to the Problem 13
Tracking 17
Within School Segregation 22
Statement of the Problem 28
Purpose of the Study 29
Research Questions 30
Definition of Terms 31
Chapter 2: Literature Review 36
Opportunity-to-Learn 38
Achievement Gap 42
Segregation Theory 48
Tracking and Academic Achievement 55
OTL and Success in Math 60
Algebra for All Initiative (2005) 63
Summary 68
Chapter 3: Methodology 71
Method Summary 72
Quantitative Research Design 73
Participants and Setting 75
Instrumentation 79
Chapter 4: Results 81
Results for Opportunity to Learn 81
Results for Algebra I Success by Grade 9 91
ALGEBRA FOR ALL 7
Chapter 5: Summary and Discussion 101
Opportunity-to-Learn 102
Algebra I Success 108
Discussion and Implications 110
Limitations 115
Recommendations for Future Study 116
Recommendations for Practice 116
Conclusion 119
References 123
Appendices
Appendix A: ESL OTL 137
Appendix B: White OTL Data 138
Appendix C: ESL Success Grade 9 139
Appendix D: White Success Grade 9 140
Appendix E: Median White, ESL, & LAUSD OTL Data 141
Appendix F: Median LAUSD, White, ESL Success Grade 9 142
ALGEBRA FOR ALL 8
List of Tables
Table 1: Graduation and Dropout Rates in the state of California 21
Table 2: Students and OTL (took Algebra I by 8
th
or earlier) 26
Table 3: Student Success Rates by 9th Grade 27
Table 4: 17 Urban School District percent and number of ELs 76
Table 5: District Demographics 79
Table 6: The Percent of Students per District Tested for Algebra I in grade 8 87
Table 7: Opportunity-to-Learn changes from the year 2004 to 2010 88
Table 8: White and ESL student OTL Rates 2012 89
Table 9: The Opportunity to Learn GAP between White and ESL
students 2012-2004 90
Table 10: The ESL Success 2004 to 2012 Percent Changes 96
Table 11: White and ESL Grade 9 Success Changes from 2004-2012 97
Table 12: Grade 9 Statewide White and ESL student success rates 2012 98
Table 13: Grade 9 Success Gap results ESL students from 2004 to 2012 99
ALGEBRA FOR ALL 9
List of Figures
Figure 1: Algebra I Success Passing Rates in California 24
Figure 2: Non-Equivalent Retrospective Comparison Group Design 73
Figure 3: Non-equivalent Comparison Group Design 74
Figure 4: English as a Second Language students OTL scores per the 17 districts. 82
Figure 5: Statewide White student Opportunity -to-Learn data for 16 large districts 83
Figure 6: Non-LAUSD, Statewide White and Statewide ESL comparison data. 84
Figure 7: LAUSD, White and ESL comparison data. 85
Figure 8: LAUSD ESL and Statewide ESL Opportunity to Learn 85
Figure 9: LAUSD White and Statewide White OTL 86
Figure 10: Percent of ESL students who scored “Basic or Above”
Algebra I, grade 9 91
Figure 11: Percent of statewide White students “Basic and Above”
Algebra I, Grade 9 92
Figure 12: Mean percent White and ESL “Basic and Above” Algebra I Grade 9. 93
Figure 13: Mean Percent LAUSD White and ESL Grade 9 Success Algebra I 94
Figure 14: Mean Percent LAUSD and Statewide ESL success Algebra I, Grade 9. 95
Figure 15: Percent of LAUSD and Statewide White student success
Algebra I, Grade 9 96
ALGEBRA FOR ALL 10
Abstract
English as a Second Language (ESL) learners’ access and achievement in Algebra
I was examined to determine whether ESL students continue to be denied equal
opportunity-to-learn (OTL) as a result of unnecessary tracking practices. In this quasi-
experiment, a pre-post retrospective comparison group design was used to determine the
effects of the California Algebra for All (2005) initiative. Two dependent variables, OTL
and California Standards-Based Test (CST) Algebra I success, were measured. This
retrospective comparison group design allowed for an analysis of the difference between
post- (2012) and pre-intervention (2004) Algebra I scores. Three independent variables
in this study were examined: (1) LAUSD versus seventeen large urban school districts,
(2) White vs. ESL students, and (3) differential implementation of Algebra for All from
2004 to 2012 in eighteen large urban school districts.
Four research questions were addressed: 1) To what extent, if any, have large
urban school districts in California increased ESL access to early Algebra between 2004
and 2012?; 2) To what extent, if any, have large urban school districts in California
decreased the gap between ESL and White student access to early Algebra between 2004
and 2012?; 3) To what extent, if any, have large urban school districts in California
increased ESL success in Algebra I between 2004 and 2012?; and 4) To what extent, if
any, have large urban school districts in CA decreased the gap between ESL and White
student Algebra I success between 2004 and 2012?.
The 2005 Algebra for All initiative in all but two districts, Long Beach and Elk
Grove, led to more equitable changes. Seven of the eighteen large districts in this study,
each with 31 percent or higher ESL student population, increased ESL opportunity-to-
ALGEBRA FOR ALL 11
learn by 50% or more since the year 2004. These districts were Anaheim, Lodi, San
Francisco, San Bernardino, Stockton, Moreno Valley, and Mt. Diablo. The mean percent
change in ESL OTL was 38%.
The 2012 ESL Algebra I opportunity-to-learn data were equally promising. The
top three districts with OTL rates greater than or equal to 90% were San Francisco,
Stockton and Moreno Valley. In addition to these three districts, Mt. Diablo, Corona-
Norco, San Bernardino, and San Diego districts had ESL 2012 OTL rates greater than
80%. Fifteen out of the eighteen districts had an ESL OTL rate greater than 50 percent.
The median 2012 district level OTL rate was 63%.
Since the inception of the 2005 Algebra for All state initiative, seventeen out of
eighteen large school districts improved ESL Algebra I success rates by over 20 percent.
Within all 18 districts, the improvement ranged from 8% to 60%. In all but Elk Grove,
increases in success ranged from 22% in Sacramento to 60% in Anaheim. The median
success rate change for all 18 districts was 32%. Aside from two districts, Riverside and
Stockton, in which ESL students experienced larger success changes than White students,
there were substantial success changes.
The 2012 Algebra I success data are equally encouraging. The top eight districts
with success rates greater than or equal to 65% were Anaheim, Riverside, San Francisco,
San Diego, Sweetwater, Corona-Norco, Sacramento and Elk Grove high school districts.
Each statewide district had a success rate greater than 50% and the median district level
success rate is 63%.
California school districts made great strides for ESL learners in 2012 in
comparison to 2004. Thus, the January 16, 2013, State Board of Education decision to
ALGEBRA FOR ALL 12
end the 2005 Algebra for All push for Algebra I at grade eight is reason for great alarm.
Despite acknowledging improvements in Latino enrollment which nearly tripled to 63%
and Latino proficiency rates doubled to 42 percent, the state’s concern for the other 60%
who were not proficient, coupled with the fact that only one in five of those who repeated
the class scored proficient, was reasonable cause for them to stop Algebra for All
(Fensterwald, 2013). Parenthetically, the problem with the new decision to stop Algebra
I by grade 8 is that it will only apply to “some” students and not all. Predicted is a
decline from the two-third eighth grade enrollment in Algebra I as a result of the
Common Core’s gradual approach to Algebra I.
Lastly, Algebra I grade 8 advocates, such as Doug McRae, warn that
inconsistencies in the current state decision such as (1) unclear language standards
stressing acceleration to Algebra I, (2) not testing for Algebra I in grade 8 which may
lead to both a “path of least resistance” and more teacher bias (cited in Fensterwald,
2013), and (3) the lack of state incentives will, in essence, only serve to deny student’s
their civil right to OTL as initiated by NCLB. Instead of “No Children Left Behind”,
this current legislation will contribute to “ESL Students Left Behind.”
ALGEBRA FOR ALL 13
Chapter 1: The Problem
Introduction to the Problem
In an era of high stakes accountability, California has strived to increase student
performance, specifically in the areas of math, technology and science in order to
compete within the 21
st
Century global market. In regards to accountability, a major
concern in the state of California is the significant gap between White students and their
non-white counterparts, particularly the Latino English Language (EL) Learner
population. This gap is most salient in the area of math, as the political climate has
focused on mathematics as the leading indicator of future success. Mathematics has been
linked to graduation rates and predictability of college readiness and success more so
than SAT scores or other accountability measures.
In addition to the math achievement gap, another major concern in California for
EL students is equity, as school districts continue to segregate Latino students under the
guise of tracking, even after initiatives such as Algebra for All (2005) were mandated to
ensure that all students take Algebra I by grade 8. Segregation and/or tracking practices
limit student curricular pathways by diminishing equal opportunities to learn, which form
a fundamental constitutional right (Oakes, 1990). Differential educational practices that
put students on either low-ability and slower or high ability and accelerated academic
tracks have detrimental long-lasting effects on the quality of Latino students’ lives. The
high dropout and very low graduation rates, along with the percentage of college-going
rates for Latino children, should concern us all, as this population is predicted to become
the majority subgroup in the nation in terms of numbers (Kohler & Lazarin, 2007).
ALGEBRA FOR ALL 14
Education has the potential to either positively or negatively affect our future economy
and overall welfare.
A continued attempt by California to close the math achievement gap includes
increasing student math proficiency rates for all students (National Science Foundation,
1983; SBE, 2008). The problem with seeking to increase math proficiency rates across
the board is that not all students start their educational paths on the same level (Oakes,
1990). Despite that, California adopted academic content standards for math in 1997,
and, in 2004, the passing of Algebra I became a requirement for high school graduation
(EdSource, 2009). In 2008, after the U.S. Department of Education (DOE) notified the
California Department of Education (CDE) that its General Math California Standards
Test (CST) did not comply with federal requirements because the content was considered
6
th
and 7
th
grade standards, even by California’s own standards, Algebra for All was
initiated (EdSource, 2009). While the debate over how the California academic content
standards in mathematics are organized has continued, the CDE’s Algebra for All (2005)
initiative mandated that all students should have access to an Algebra I class by grade 8.
Even the new Common Core standards, which will replace the existing California
standards, support the Algebra for All initiative in creating Algebra I standards for grade
8. The policy issue of concern for Latino students in California is whether school
districts will give underrepresented and low-achieving groups of students equal
opportunities to participate and achieve in the field of mathematics by enrolling students
in Algebra I by grade 8.
Although theoretical battles over Algebra I and student developmental readiness
for it continue, when reform movements for excellence are in place, educational
ALGEBRA FOR ALL 15
ideologies and practices also shift (Reyes & Valencia, 2003). With that in mind, students
who take Algebra I by 8
th
grade are said to be on track towards high school graduation
and are “on-time” or considered to be on a high ability track/pathway to success.
Completing Algebra I by grade 8 provides students the opportunity to complete Algebra
II by grade 10, and doing that diminishes the gap in college graduation rates between
Latino students and their White counterparts (Adelman, 1999). Students who do not have
this option or access to Algebra I are considered “not-on-time,” and on a low-ability
track/pathway to success. As a result of the Algebra for All (2005) initiative, all students
in California are now expected to take Algebra I in grade 8 in order to be on target for
high school graduation and college. Passing Algebra I has become known as a pre-
requisite to future math success, higher educational access, and career success (EdSource,
2009; Paul 2005; Silver, 1997).
As the practice of excellence presses forward, excluding Latino students from
early Algebra will only serve to exacerbate their plight for equality (Reyes & Valencia,
1993). The National Science Foundation (NSF) recognized that there are not enough
studies related to the impact of the uneven distribution of opportunities to learn science
and mathematics (Oakes, 1990). Therefore, in addition to the math achievement gap,
another major concern for Latinos in California, and for this study, is that of unequal
opportunities to learn, as certain school districts continue to segregate students. This
often occurs under the guise of tracking or homogenous grouping.
Although segregation has been unlawful for over 55 years, segregation practices
have penetrated time and slipped through policy. Second-generation segregation, known
as tracking, has its roots in elementary school; however, it is more commonly
ALGEBRA FOR ALL 16
documented in secondary schools (Buttaro, Catsambis, Mulkey, & Steelman, 2010). A
problem with the practice of tracking students in secondary schools is that it isolates
students according to their race and ethnic background, (Buttaro et al., 2010) and this
promotes the stereotype that certain ethnicities cannot succeed.
Secondly, a misunderstanding of second language learners and their ability to
learn rigorous content has influenced segregation practices (Reyes & Valencia, 1993).
The Lau v. Nicolas (1974) decision held public schools accountable for providing
comprehensible educational opportunities to students who could not speak English
because English is the vehicle to education (Valencia, 2002). As a result of trying to
make educational opportunities comprehensible, tracking has become the common tool
used by many school districts in response to diversity (Buttaro et al., 2010; Valencia,
2002).
Adding to the challenge of making school comprehensible for English Learners is
the challenge of master planning to address the Latino population, as it continues to be
the fastest growing sub-group in California schools (Kohler & Lazarin, 2007; Yates &
Ortiz, 1991). Demographers found that the U.S. population is becoming less White
(Reyes & Valencia, 1993). Further, variables that have an impact on success in
mathematics, such as teacher preparation programs, have not adequately addressed the
English Learner subgroup. Furthermore, cultural proficiency attitudes penetrate into
educational programs even after mandates to provide English Learners services have
been made (Lopez, 2011). As a result, the students who are most negatively affected by
tracking practices are Latino English Learners, as they are more likely to be matriculated
onto low-ability curricular tracks (Valencia, 2002).
ALGEBRA FOR ALL 17
Tracking
When students enter the school system in elementary school, some are placed on
educational pathways, and this practice is referred to as tracking. Some students are
considered high achievers and are placed on fast-paced and high-ability tracking
pathways, while others are placed on slow-paced and low ability tracking pathways of
education. A major problem with the tracking system is that low-ability tracking
increases the risk of inequitable opportunities to learn (Oakes, 2000). Placing students on
pathways that are slower (not at grade level) in an attempt to give them more time to
learn the content material will often result in an unbalanced curricular program. For
example, extra interventions within a school day may be added.
In regards to unbalanced programs, students in some districts are segregated by
ability levels and put into homogenous groups (same ability or leveled groups)
throughout the school day or are scheduled in double blocks of English classes which
include English Language Development (ELD) time. Studies on English Learner
instructional programs by Obrien (2007) and Saunders, Foorman, and Carlson (2006)
found that a double block schedule that includes both English Language Arts (ELA) and
ELD was the least effective program design for acquiring English proficiency levels.
Instead, teaching ELD as a separate class with protected time resulted in better language
instruction and increased English literacy skills (California Department of Education,
2011). Yet, despite the research, some districts continue to implement scheduling
practices that cut back, minimize, or supplant core subjects (math, science, and history) in
elementary schools, depriving students of rigorous courses and subject matter essential to
later learning.
ALGEBRA FOR ALL 18
In regards to slower pacing, students in remedial classes are more likely to work
at low cognitive levels on test-oriented tasks, are rarely given opportunities to construct
and solve math problems, seldom have opportunities to talk, and have instruction that is
geared to rote skills (Darling-Hammond, 2007). It is important to note that placing
students on low-ability tracking in lower grades leads to differences in curriculum
pathways and different access to opportunities towards grade-level mastery. Tracking
only serves to stagnate or hinder student progress.
The main problem with tracking is that tracking students starts early on in
elementary and then continues when students are sorted out in high school (Darling-
Hammond, 2007). This tracking practice may be attributed to an overreliance on
assessments that are used as accountability measures. Because districts use language
proficiency data in the case of English learners to program students into a master
schedule, tracking becomes well institutionalized by middle school. As students enter
high schools, they are denied enrollment opportunities that help them towards graduation
or towards becoming college ready: Algebra I, Advanced Placement (AP), and Honors
courses. These decisions are based on the perception that EL students lag behind
academically. By the time students are in secondary school, they subtract themselves
from the educational system by not enrolling themselves in challenging classes because
they are aware of their deficiencies in education and do not feel they can keep up (Olsen,
2010; Valenzuela, 2000). Pelavin and Kane (1990) state “…there are large differences
among students of various racial and ethnic groups in course taking in areas such as
mathematics, science, and foreign language” (as mentioned in Darling-Hammond, 2007).
ALGEBRA FOR ALL 19
Math has become an increasingly more important curriculum subject for English
Learners because it is a springboard to college preparation in high school, as it sets in
motion a chain of events in curricular options such as access to biology and geometry
classes (Paul, 2005). Math preparation, access to rigor, and success are related to the
type of pathway the tracking offers. Therefore, low-ability tracking based on
assumptions that ELs are slower than English-only students and cannot learn at the same
rate do not adequately prepare students with a strong foundation in concepts that will be
needed in future math classes (Valencia, 2002; Oakes, 2000).
As a result of tracking practices, there are many English Learner students who
have become what is known as Long Term English Learners (Callahan, 2005; Linquanti,
2001). The issue of Long Term English Learners (LTEL’s), though not new, has become
a renewed focus of attention among educators, the legislature, and economists due to the
growing and projected future numbers of English Learners (Freeman, Freeman, &
Mercuri 2003; Garcia, 2000). The Hispanic/Latino population is projected to be the new
majority in the country (Freeman et al., 2003). As recently as 2012, the AB2193 Bill,
which defines the term Long-term English Learners as being “at risk” of not progressing
at an appropriate rate, will require the California Department of Education (CDE) to
annually ascertain and provide to school districts the number of pupils at risk of
becoming long-term English learners (August 2012, AB 2103). An LTEL student is
described as being stagnate (not progressing in English Language levels as determined by
the CELDT test). In addition, an LTEL student has not obtained a basic or above score
on the English Language portion of the CST test and has remained in an English Learner
Development (ELD) class for over 5 or 6 years (AB2193, Lara, 2012; Callahan, 2005).
ALGEBRA FOR ALL 20
The Reparable Harm report released in 2010, states 59% of secondary school ELs were
LTELs. Until recently, math was a requirement towards re-classification by many
districts. However, because EL students were not reaching proficiency rates in math, the
reclassification requirements have instead focused on English proficiency only
(California Department of Education, 2012-2013).
The Lau v. Nicholas (1974) case influenced educators’ response to the issue of
teaching English to non-English speaking students, and English as a Second Language
(ESL) classes, currently referred to as English Learner Development (ELD) classes, were
created. Although the goal and purpose of ELD classes is to help students acquire the
English Language at an appropriate pace in order to reclassify them as Fluent English
speakers, the reality is that approximately 60% of students in grades 6-12 in California
have not reclassified and are struggling academically. Cummins (1984, 1980) states it
takes a person approximately 3-4 years to learn basic interpersonal language and 5 to 7
years to acquire academic language. Not reclassifying before or within the middle school
years has detrimental effects for EL students in high school, such as not graduating at
appropriate rates and increased dropout rates.
Disparity in graduation rates. An NCES report by Chapman, Laird, and
KewalRamani (2011), found 93.8% White of non-Hispanic descent students had a high
school completion rate of 93.8% in 2009, whereas, 76.8% of Hispanic students completed
high school, a difference of 17%. Moreover, Hispanic students were 9.4 times more
likely to drop out of high school with a status dropout rate of 17.6 percent in comparison
to the 5.2 percent status dropout rate for White students, creating a gap of 12.4%. In each
ALGEBRA FOR ALL 21
“recency from immigration” categories in the report, Hispanic youth had a higher status
dropout rate in comparison to non-Hispanic youth.
Table 1
Graduation and Dropout Rates in the state of California
2010-2011 Cohort Graduation and Dropout Data
Cohort Total Graduated
Total
Graduation
Rate
Dropout
Total
Dropout
Rate
Hispanic or
Latino of
any Race
238,436 167,886 70.4% 42,126 17.7%
White, non-
Hispanic
146,169 124,863 85.4 12,980 8.9%
LAUSD
Hispanic
77,066 51,732 67.1% 13,886 18%
LAUSD
White
20,695 17,446 84.3% 1,795 8.7%
California Department of Education DataQuest
Table 1 presents the graduation and dropout rates for California and LAUSD.
Statewide, of 501,663 students in the 2010-2011 cohort, 382,558 students graduated (a
rate of 76.3%), and 72,314 dropped out (a rate of 14.4%). From the Hispanic or of Latino
Race cohort total of 238,436, only 167,886 graduated (a rate of 70.4%) and 42,126
dropped out (a rate of 17.7%). Hispanic students dropped out of high school 3.3% more
often than did White students. LAUSD White students graduated at a rate of 84.3%,
while LAUSD Hispanic students graduated at a rate of 67.1%. The difference reveals a
graduation gap of 17%. In addition, LASUD White students’ dropout rate was 8.7%,
while the Hispanic rate was 18%, which means there is a dropout gap of 10%.
The concept of cultural proficiency refers to a level of knowledge-based skills and
understanding required to teach and interact successfully with students and colleagues
from a variety of backgrounds. The level of understanding may be measured using a
ALGEBRA FOR ALL 22
cultural proficiency spectrum. The reason cultural proficiency is important is that how a
person, or culture, values other cultures affects choices educators make in terms of equal
access to educational opportunities (Olsen, 2010). To increase cultural proficiency,
educators need to develop their knowledge and strong understanding of EL typologies
and how each type is related to motivation, engagement, and student success. Currently, a
gap of knowledge in this area exists (Olsen, 2010). Teacher education programs have not
adequately prepared teachers for working with the diverse EL student population, and,
although research is emerging, it is considerably sparse.
Moreover, knowing the difference between a student’s academic ability and
academic language, or linguistics developmental needs, is essential. Knowing that
learning a second language does not prevent students from learning other academic
content such as Algebra concepts is important for OTL. This misunderstanding
contributes to educators’ lower expectations for English Learner students. For example,
although students may not speak English and need ELD classes to help them obtain
English proficiency, it is unfair to assume that they cannot learn at high cognitive levels
or that they should be denied access to a rigorous curriculum. Many times, however, the
rigor expectations for these students are decreased (Freeman, Freeman, & Mercuri, 2003;
Garcia, 2000).
Within School Segregation
The push for accountability arose from the publication of “A Nation at Risk”
(1983), which revealed American children are not prepared for the 21st Century, and
America is at risk of losing its political power and influence in the world. The authors
stated, “Between the years 1975 and 1980, remedial mathematics courses in public 4-year
ALGEBRA FOR ALL 23
colleges increased by 72% and now constitute one-quarter of all mathematics courses
taught in those institutions…” (Nation at Risk, 1983). As a result, an urgency to increase
high school math standards with programs such as the Algebra for All initiative (2005)
had an impact on California’s school system, and, as a happenstance, more EL students
have experienced access to Algebra I (EdSource, 2009, 2011), which is the gatekeeper to
high school graduation and higher education. ESL students benefit from this opportunity,
as more EL students are currently enrolled in Algebra by 8
th
grade now than before the
Algebra for All state initiative.
Although mandates such as desegregation laws (Brown v. Board of Education,
1954), the NCLB (2001) and, more recently, the California CDE Algebra for All (2005)
initiative are supposed to protect students’ rights to equal education, not all students
experience the same opportunities to learn (OTL) or have equal access to high stakes
classes. This is mainly due to the fact that some school districts continue to practice
segregation disguised as grouping or tracking practices. As school districts perpetuate
the status quo and prevent underrepresented groups from equitable educational
experiences such as taking Algebra I, the nation will continue to be at risk of not meeting
future human capital financial stability, students will continue to drop out, and the
college-going rate will not increase. Furthermore example, if English Learner students
are not adequately prepared to succeed in schools, they will not only be at risk of not
graduating, but they will also not be prepared to enter the work force.
Jobs in the 21
st
century have increased skill requirements and a college degree
and/or knowledge of technology is needed for employment in high-paying jobs.
Economic security comes from having a low unemployment rate. Moreover, as a nation,
ALGEBRA FOR ALL 24
the deficiency in school district efforts to close the achievement gaps between subgroups
will result in society’s not being able to keep up with global market competiveness in the
areas of science, technology, engineering and mathematics (STEM).
Despite the influence segregation practices have on students and on increasing
student achievement gaps, the Algebra for All (2005) initiative appears to be making a
difference in some California districts. In support of the Algebra for All initiative and its
effect on ESL Learners in acquiring math success, Figure 1 below shows successful
growth rates for ESL students in the State of California. It appears that the Algebra for
all initiative is addressing the issues at hand: OTL, math success, and, hence, the
achievement gap.
Figure 1. Algebra I Success Passing Rates in California
Figure 1 shows 2003, 2007, and 2011 Algebra I scores for both the White
subgroup and ESL students in California and demonstrates that there has been a
substantial increase in math proficiency rates as a result of the Algebra for All initiative
(2005). The passing rate for White students rose from 32% in 2003 to 52% in 2007 and
0%
10%
20%
30%
40%
50%
60%
2003
2007
2011
White
Success
Pass
Rate
EL
Success
Pass
Rate
ALGEBRA FOR ALL 25
then rose by 2% in 2011. In comparison, the passing rate for ESL students increased
11%, from 16% in 2003 to 27% in 2007, and then by 14% in 2011. When comparing and
benchmarking the ESL students’ scores to White students’ scores, the results show
progress towards closing the achievement gap.
While great progress has been made overall, many low SES and EL students still
find themselves wedged in the cycle of diminished success in mathematics. In some
schools, the practice of segregation among high school students has become a self-
fulfilling prophecy, and EL students subtract themselves from the school system by either
failing or dropping out (Olsen, 2010; Valenzuela, 2000). Subtraction refers to instances
where school systems subtract the value of students’ second languages by creating a
situation in which students feel vulnerable to academic failure (Valenzuela, 2000). These
problems feed into the educational achievement gap and, particularly, the mathematical
educational gap between ethnic minorities and their White counterparts. For example,
many English Learner students on slow tracks were not enrolled in Algebra I in grade 8
or earlier until the Algebra for All initiative (2005). However, it is hypothesized that some
districts still ignore the Algebra for All initiative.
Preparation for success is an important variable in regards to math success rates.
Preparation starts with first having the opportunity to enroll in courses early on, as these
provides practice in content and conceptual knowledge. Unfortunately, U.S. Educational
systems allocate opportunities to groups versus individuals (Oakes, 1990). Students
clustered in “low-ability” groups differ from their more advantaged peers, and their
mathematical experiences are strikingly different by the time they reach secondary school
(Oakes, 1990). For example, Algebra I is a prerequisite to future math success rates in
ALGEBRA FOR ALL 26
high school, and it is better if it is taken at or before grade 8. Student math success rates
in high school depend on whether they have the opportunity to take Algebra I at grade 8
or earlier (EdSource, 2009).
While considerable progress is evident in California, the problem this study
addresses is the extent to which progress has been limited in some districts due to district
policies. The graph below depicts subgroups and the opportunity to learn (OTL), defined
as access to Algebra I by grade 8 or earlier in two Southern California Districts, Culver
City and Torrance.
Table 2
Students and OTL (took Algebra I by 8
th
or earlier)
2006 2011 2006 2011
Culver City Culver City Torrance Torrance
White .51 .62 .42 .97
Asian .43 .80 .58 1.00
AA/Black .42 .43 .39 .94
Hispanic .39 .32 .34 .97
OTL = students who took Algebra I by 8
th
grade or earlier (determined OTL by column Torrance 2011 -1)
Table 2 reflects the percentage of students who had adequate OTL as defined as
having access to an Algebra I course by grade 8 or earlier, broken down by district,
school year and ethnicity. Hispanic students in Torrance experienced a 34% chance of
taking Algebra I by 8
th
grade or earlier in 2006 in comparison to a 39% chance in Culver
City in 2006. After the Algebra for All initiative was instituted in Torrance, Hispanic
OTL rose from 34% to 97% in Torrance, whereas, in Culver City, the percentage
decreased from 39% in 2006 to 32% in 2011. The Torrance Unified School District has
made a significant difference for English Language Learners OTL, while Culver City has
ALGEBRA FOR ALL 27
not. In Culver City, the percentage of students enrolled in Algebra I by 8
th
grade actually
decreased for the Hispanic sub-group between 2006 and 2011.
Table 3
Student Success Rates by 9th Grade
2006 2011 2006 2011
Culver City Culver City Torrance Torrance
White .59 .76 .54 .89
Asian .39 .81 .62 1.0
AA/Black .43 .50 .43 .70
Hispanic .46 .43 .38 .71
There is much debate regarding student readiness to take Algebra I in grade 8.
Table 3 shows success rates in grades 9 broken down by year and ethnicity. White
students’ success rates increased by 17% in Culver City by the year 2011, and Asian
students’ success rates increased by 42%. Hispanic students’ success rates did not show
growth in Culver City. In contrast, all students in Torrance had an increased success rate
by 2011. White students’ success rate increased by 35%, Asian students’ success rate
increased by 38%, African American students’ success rate increased by 27%, and
Hispanic students’ success rate increased by 33%. These results indicate two things: (1)
In the Culver City School District, White and Asian students have better success than
Hispanic and African American students, and (2) although Hispanic students made some
gains in Torrance, White and Asian students did so as well, meaning the achievement gap
is actually growing in Torrance. Although all groups in Torrance made gains, Hispanic
and African American students had the lowest gains of 33% and 27%, respectively.
ALGEBRA FOR ALL 28
Statement of the Problem
The English Learner population has increased substantially. In the 2004-2005
school year, an estimated 5.1 million English Language Learners enrolled in preK-12
public schools, and they represent 10.5% of the total public school student enrollment
(Kohler & Lazarin, 2007). “Nearly four-fifths (79%) of all Latino children are Hispanic
native Spanish-speakers” and “Latino children represent nearly half (45%) of English
Learners in our nation’s public schools” (Kohler & Lazarin, 2007). Limited English
Proficient enrollment is highest in places where Hispanic populations exist, such as in
California.
A problem that exists is that English Language Learner students, specifically
Latinos of Hispanic descent, often are not eligible for graduation due to not having the
appropriate credits or courses required for graduation. Therefore, EL students’ graduation
rates are too low and dropout rates are too high. Moreover, segregation practices may
contribute to the increase in EL population students who become Long-term English
Learners (LTELs). By the time ESL students reach high school, many are discouraged,
alienated, and are so far behind they either drop out or are riddled with remedial and/or
credit recovery courses. Their opportunities for graduation and higher education are
severely limited (Olsen, 2010; Valencia, 2002).
Though accountability measures such as NCLB (2001) and the Algebra for All
(2005) initiative in California are meant to close achievement gaps and provide all
children equal rights to education, the problem is many ESL students in California may
be held back through tracking practices.
ALGEBRA FOR ALL 29
Purpose of the Study
The practice of segregation (homogenous tracking) serves as an organizational
barrier that prevents EL students from equal opportunities to learn. Therefore, it preserves
the status quo in terms of achievement gaps between White and English Learner students.
The purpose of this study was to determine how many English Language Learners in
California receive the opportunity to learn Algebra I by grade 8 and to test the theory
that, when EL students are given the opportunity to take Algebra I at the appropriate 8
th
grade level, Algebra I success rates will increase. Further, the analysis will determine
which large districts in the state of California implement the Algebra for All initiative. It
is hypothesized that cross-sectional district level data will allow for a comparison of the
success rates of students who took Algebra I in 8
th
grade with those of students who did
not take Algebra I prior to the Algebra for All initiative (2005).
This study will examine segregation practices (homogenous tracking) of English
as a Second Language students (ESL) and how that influences OTL and success rates for
three reasons: (1) ESL students are commonly placed on low-ability tracking pathways,
(2) ESL students continue to have high dropout rates and overall low Algebra I test
scores, and (3) ESL students are the fastest growing US minority group. Moreover, this
study will use the Algebra for All initiative (2005) to demonstrate that access to Algebra,
the gatekeeper to high school graduation, may have implications for OTL for
underrepresented and minority students thought to be low-achieving. To determine how
many ESL students take Algebra I and which districts implemented Algebra for All, this
study will concentrate on LAUSD and 17 large urban school districts in California.
ALGEBRA FOR ALL 30
Inequalities in learning opportunities must be addressed head-on if they are ever
to be successfully removed (Darling-Hammond, 1994). Benchmarking is one way to
measure continuous improvement, according to Tucker (1996). Therefore, this study
identifies which districts embraced the Algebra for All initiative by increasing ESL access
to early algebra. The study also will have implications for district level accreditation and
accountability.
Research Questions
This study focused on the success scores of White and ESL students before and after
the Algebra for All initiative in selected school districts. The population includes White
and ESL students who took the Algebra I CST and General Math Tests in the years 2004,
2007, and 2012. The research questions are:
1) To what extent, if any, have large urban school districts in CA increased ESL
access to early algebra between 2004 and 2012?
2) To what extent, if any, have large urban school districts in CA decreased the
gap between ESL and White student access to early algebra between 2004 and
2012?
3) To what extent, if any, have large urban school districts in CA increased ESL
success in Algebra I between 2004 and 2012?
4) To what extent, if any, have large urban school districts in CA decreased the gap
between ESL and White student Algebra I success between 2004 and 2012?
ALGEBRA FOR ALL 31
Definition of Terms
For the purpose of this study, the following the following terms were
operationally defined as follows:
Algebra I. a branch of mathematics in which arithmetical operations and
relationships are generalized by using alphabetic symbols to represent unknown numbers
or members of specified sets of numbers (Google Dictionary.com). It includes Whole
Numbers, Common Fractions, Decimal Fractions, Percentages, Units of Measurement,
Signed Numbers, Simple Powers, Substitution, Setting up Equations, Solving Equations,
Geometry, Comparisons, Graphs, Tables, Estimation, Probability, Statistics, Order of
Operations, Ratios, Math Vocabulary, Word Problems (Engehard, Garner, & Lueck,
2001).
Basic or Proficient. Basic or proficient, for the purpose of this study, refers to
students who score a 300 and above on the CST test.
CDE. California department of education (California Department of Education
College Readiness. College Readiness is defined by the Conley (2007) reports as the
level of preparation a student needs in order to enroll and succeed in postsecondary
institutions without needed remediation.
CST. The CST is defined by CDE as the California standardized-based test. It is a
criterion-referenced measure of how students are achieving the rigorous academic
standards adopted by the California State Board of Education. Five performance levels
are used to describe achievement: Far Below Basic, Below Basic, Basic, Proficient, or
Advanced.
ALGEBRA FOR ALL 32
Dropout. Dropout is defined by CDE as a student who was enrolled in grades 7 –
12 at some time during the school year and left school without completing the year, or
successfully completed a prior year but did not return to the next grade assigned and was
not enrolled or attending school by the specified year.
English Learner. English Learner refers to a student who does not speak English
or whose native language is not English and who is not currently able to perform ordinary
classroom work in English, also known as a limited English proficient or LEP Child
(Education code 306).
English Language Development (ELD). ELD stands for English Language
Development. ELD refers to California English Language Development standards in the
domains of listening, reading, speaking, and writing. The standards were adopted by the
California State Department of Education as a result of AB 748, enacted in 1997, which
stated a need to test students to determine their English proficiency level. The levels of
progression are beginning, early intermediate, intermediate, early advanced and advanced
(CDE, 2009). As a result of Lau v. Nicholas (1974), English Language Development
classes were designed to address ESL student’s English proficient levels. English as a
Second Language (ESL). ESL is defined by CDE as a student in K-12 whose home
language is not English.
Limited English Proficient (LEP). LEP is defined by the CDE as (1) an EL
Learner, or (2) a student who has reclassified but has not reached proficient level on CST.
Fast track. Fast track refers to curriculum and master scheduling for students
which will lead them to opportunities for a college career. Fast-tracking for math is
ALGEBRA FOR ALL 33
defined as taking Algebra I by grade 7, which will enable students to take Calculus or
other college level courses by grade 12.
General Education Development (GED). GED is a national test given to people
18 or older. Topics tested include language arts/reading, language arts/writing,
mathematics, science and social studies. People who do not have a diploma may use this
test as an equivalency to a high school diploma (CDE, 2013).
General Math. General math consists of numbers sense, pre-algebra and
functions, and measurement and geometry (CDE, 2013).
Graduate. High School graduate is defined as a student who has received formal
recognition from school authorities, through the granting of a diploma, for completing a
prescribed course of study.
Hispanic or Latino. Hispanic/Latino is defined by the California Department of
Education (2013) as the ethnic group of a person of Mexican, Puerto Rican, Cuban,
Central of South America, or other Spanish culture or origin, regardless of race.
Latino. The Latino term is defined by Webster’s dictionary as a Latin Americano
or a person from Latin America. Latin American includes countries in Mexico or those
in Central America, the Caribbean, and South America. The term Latino is meant to
unite these countries with the single factor they have in common, the Spanish language.
LEA. Local Education Agency (LEA) is defined by CDE as a government
agency that supervises public elementary and secondary schools in the delivery of
instruction and educational services. LEA’s include school districts and county offices of
education.
ALGEBRA FOR ALL 34
Long-term English Learner (LTELs). A Long-term English Learner is defined as
a student who is learning English as a second language and has been enrolled in U.S.
schools starting in grade K or First, and, after 6 years, has not met the requirements to
exit the English Learner program due to legislated criteria for reclassification (2012, Lara
Bill, AB2193).
Opportunity-to-learn (OTL). OTL is access and equal opportunities to effective
teachers, curriculum, scheduling or high-ability tracking, in order to learn standards.
(Goals 2000: Educate America Act). OTL may also be used as a measurement tool for
evaluation purposes (Pub. L No. 103-227, ξ 3 [7]).
Pathway. A pathway refers to a typical course of study. In reference to the math
pathway, it refers to two algebra courses and one geometry course.
Reclassification. Reclassification is the local process used by LEA’s to determine
whether students have acquired sufficient English language proficiency to perform
successfully in academic classes without additional ELD support: EC Section 313 (d)
specifies four criteria to determine reclassification status (CDE website) RFEP.
Reclassified as Fluent English Proficient is defined by CDE as students with a primary
language other than English who were classified as English Learners and have met LEA
criteria for English language proficiency.
Slow academic track. A slow academic track is defined as a tracking pathway
that does not prepare students to be college ready. It refers to curriculum that is less
cognitively challenging and master planning schedules that do not include honors or
rigorous courses so that students do not follow the traditional course of testing for
Algebra I by grade 8. Instead, a slow academic track includes remedial classes and/or
ALGEBRA FOR ALL 35
math courses that focus on altered curriculum to reteach or repeat basic curriculum. It
also refers to less exposure to math conceptual understanding that will help prepare
students for more abstract math and problem solving ability.
Success. Success in Algebra I is defined as a score considered basic or above on
the CST. The basic score scale begins with 300.
ALGEBRA FOR ALL 36
Chapter 2: Literature Review
The purpose of this study was to determine whether the Algebra for All initiative
has provided equitable opportunities for English Learners to learn Algebra I. Algebra I is
essential to the educational process of English Language Learners because, as math
accountability has increased, so has the need to have opportunities to be successful in
Mathematics (Herman & Abedi, 2004; Powers, 2004; NCLB, 2002; Silver, 1997; Smith,
1996; Spielhagen, 2006). Further, Algebra I is vital for English Learners’ future progress
in the area of science, mathematics and technical careers, as the jobs of the future will
require proficient knowledge in these areas. Math has become the gateway to educational
and occupational advancement (Powers, 2004).
Chapter two will examine, identify, and establish criteria that are relevant to this
study regarding English Learners and their Opportunity-to-Learn (OTL). Current
legislation defines OTL as a measurement tool to measure the quality of resources,
practices and conditions necessary for learning (Pub. L No. 103-227, ξ 3 [7]). The OTL
theory serves as a conceptual framework for the literature, as this study examines five
areas of concern associated with OTL.
This section defines and explains the OTL concept and how it relates to
education. Second, it explains the achievement gap and its implications to OTL in order
to provide background knowledge necessary to better understand the problem. Third, it
examines tracking as it is influenced by segregation practices, in order to provide a
foundational understanding as to why English Learners continue to be segregated through
the guise of homogenous grouping, otherwise known as tracking (Buttro et al., 2010). A
math achievement gap exists between minority students, specifically English Learner
ALGEBRA FOR ALL 37
students and their counterparts, White students, in the state of California. It further
explains the implications of tracking practices as they relates to English Learners as a
group and how tracking relates to math success rates and opportunities to learn (Darling-
Hammond, 2003; McDonnell, 1995; Oakes, 1992; Wang & Goldschmidt, 1999).
As accountability measures have increased, mathematics requirements have also
increased to the degree that Algebra I has become part of the high school graduation
requirement (Silver, 1997). As of 2006, English Learners and other students with
exceptional needs must pass the California High School Exit Exam to receive a high
school diploma, despite possibly not having been taught the curriculum on which it is
based (Powers, 2004).
Therefore, it is important to explore OTL and success in math and future student
outcomes such as graduation rates (Kohler & Lazarín, 2007). This is accomplished
through providing historical content related to the importance of math, accountability,
and current math initiatives in order to provide a foundational understanding of the
Algebra for All (2005) initiative.
Lastly, this chapter explores the Algebra for All (2005) initiative and other
programs that have tried to support equal access and opportunities to learn. The
difference between English and Math accountability is that there are more initiatives and
interventions that support English Language development in comparison to math.
Therefore, the literature review explains how the Algebra for All (2005) initiative helps to
address the achievement gap by providing all students with the opportunity to access
math.
ALGEBRA FOR ALL 38
Opportunity-to-Learn
The Opportunity-to-Learn concept was first introduced about 30 years ago by the
International Association for the Evaluation of Educational Achievement (IEA) to
measure curricular differences experienced by students (McDonnell, 1995). According to
McDonnell (1995), OTL was based on a belief that students should not be assessed on
knowledge that they have not been given an opportunity to learn and, later, the Goals
2000: Educate America Act defined OTL as OTL standards. The Opportunity-to-Learn
concept was introduced by the First International Mathematics Survey. However, the
concept was later refined in the Second International Mathematics Study (SIMS),
conducted between 1976 and 1982, in which a teacher questionnaire measured for student
OTL (McDonnell, 1995). The SIMS OTL data not only documented policy problems,
but it also provided a possible solution to the problem because the study revealed a
significant relationship between curriculum exposure and student achievement. Raizen
and Jones’ (1985) summary on four studies showed a strong correlation between the
number of mathematics courses students take and their achievement in mathematics (as
mentioned in McDonnell, 1995). OTL concept has evolved from being referred to as a
relationship between students’ curricular exposure and their achievement to a policy
instrument that may be used as a measurement tool (McDonnell, 1995).
OTL. Opportunity-to-Learn is a concept that suggests students should have
access and equal opportunities to effective teachers, curriculum, scheduling or high-
ability tracking in order to have increased chances for success rates. The No Child Left
Behind Act (2001), an update and reauthorization of the Elementary and Secondary Act
of 1996, attempts to provide opportunities to learn by stating a guarantee that all students
ALGEBRA FOR ALL 39
will have educational equality. While the No Child Left Behind Act of 2001 proclaimed
it protects equal opportunities for every student in California schools, not all students do,
in fact, have the same opportunities to learn (Buttro et al., 2010; Herman & Abedi, 2000;
Oakes, 1992). Darling-Hammond (2003) states it is important to restructure schools in
order to provide every student an opportunity to learn.
OTL and its relationship to student success. Parish and his colleagues’ (2002)
study on English Learners included both English Learners and those who became English
proficient, known as reclassified English Learners (RFEP), in order to give a more
accurate representation of the data related to English Learners (as mentioned in
Rumburger & Gándara, 2004). With this in mind, their study showed a significant gap
between English-only students and English Learner students in the area of English. The
gap was significant enough to warrant a concern for English Learners because they are
falling further behind (Rumburger & Gándara, 2004). Although this study concentrated
on elementary students, relevant to this study was the sizable gap that exists at all levels,
which supports the fact that English Learners continue to lag further behind their English
Learner counterparts. Grade 5 English Learner students were reading at grade 3 and 4, a
gap of 1.5, and, by grade 8, former English Learners (those who may have reclassified),
were reading at the same grade level as English-only grade 6 students, yielding a gap of 2
years (Rumberger & Gándara, 2004). The data indicated that the poorest scoring English
Learners had dropped out of school by grade 11. Thereby, the data from this study
supports the idea that OTL has an impact on dropout rates.
The Center for Language Minority Education and Research (1996) found that
Limited English Proficient (LEP) students face academic challenges due to OTL and,
ALGEBRA FOR ALL 40
therefore, have a high probability of dropping out (as mentioned in Wang and
Goldschmidt, 1999). While, Rumberger and Palardy (2005) stated student success has
more to do with SES than with OTL or access to classes, the OTL theory differs. OTL
states that English Learner students do not begin their educational experience on an even
playing field. Therefore, the average performance of English Learners does not exceed
that of English-only students upon entering secondary school (Rumberger & Gándara,
2004).
OTL inequalities. Rumberger and Gándara (2004) found seven inequitable
conditions that account for the differences in OTL: (1) inequitable access to
appropriately trained teachers, (2) inequitable professional development opportunities to
help teachers address the instructional needs of English Learners, (3) inequitable access
to appropriate assessment to measure EL achievement, (4) inequitable time to accomplish
learning goals, (5) inequitable access to instructional materials and (6) curriculum, and
(7) inequitable access to adequate facilities.
Furthermore, Williams v. State of California also resulted from existing inequalities,
and it attempted to provide resources to increase student achievement. Due to these
inequalities, Williams v. State of California (2000) mandates that all students should have
safe and clean schools, textbooks, and qualified teachers.
OTL studies. The Coleman report, which was published 12 years after Brown v.
Board of Education, was based on data from the National Education Longitudinal Survey
of 1998, and it found a discrepancy on OTL which was based on socioeconomic level of
students’ schools. It noted that schools had just as much impact on achievement as
students’ own socioeconomic status (Rumberger & Palardy, 2000). The Coleman report
ALGEBRA FOR ALL 41
(1996) further attributed the inequalities of educational opportunities to widespread
school segregation (as mentioned in Rumberger & Palardy (2005). The TIMSS
documents also credited the U.S. education system with creating a lagging achievement
between the U.S. and the other developed countries (William et al., 2011). In reference
to math, Oakes (2000) stated minority students and inner-city students are the ones who
experience fewer opportunities to learn math in schools as a result of inequalities.
Further, Oakes’ (2011) research on patterns of disproportionate access to science and
math opportunities reported strong evidence to indicate inequalities exist in both
elementary and secondary schools. Moreover, cross-sectional data in regards to science
and math programs found differences in opportunities to learn related to race and social
class (Oakes, 2011). By using the National Survey of Science and Mathematics
Education (NSSME) survey tool, Oakes (2011) was able to demonstrate reasons why
low-income and minority students are more likely perceived as having low ability and
why low-income and minorities are put on low-ability tracking. While this study was
able to show disparities among opportunities to engage in math and science in the
elementary grade levels, these disparities also lead to multiple disparities in math and
science at the secondary level (Oakes, 2011). However, the NSSME data was not able to
show how the distribution of learning opportunities was directly related to student
performance in science and math. Therefore, opportunity-to-learn and its relationship to
student performance warrant more research that may determine the strength of the
relationship between OTL and success.
OTL Court Case. The Williams case argued that California’s public education
system failed on both of these counts; it did not give all students the necessary
ALGEBRA FOR ALL 42
educational resources and it allowed unequal opportunities to persist across schools.
Williams called on the state to create standards for basic educational materials, a system
of management and oversight, and accountability. The settlement, however, cannot
produce an adequate education for every child (Glenn & Picus, 2011). According to
Glenn and Picus’ (2011) analysis, the winners of the Williams case were primarily the
decile 1 through 3 schools, or schools that scored below the 30% percentile of the 2003
API. That included less than 30% of the state’s elementary, less than 20% of middle
schools, and less than 10% of high schools that achieved an API of 800 (Glenn & Picus,
2011). The remaining 40% of elementary schools, 50% of middle schools, and 60% of
high schools that scored above the 30
th
percentile of the 2003 API did not benefit from
the Williams Act. Neglected is the need for state-of-the art facilities, high-quality
textbooks, lab equipment, and technology. The funding translated to $73 per pupil at the
lowest performing schools for instructional materials. Adequacy litigation is likely to be
brought against the state in the future because this litigation was not able to address all
students over time (Glenn & Picus, 2011). However, Williams led to improved practices
at the County Office of Education, in districts, and in schools (ACLU Foundation of
Southern California Public Advocates, Inc., 2007).
Achievement Gap
Minorities face an uphill battle for a greater portion of their educational
experience, as they try to catch up with the American standards in education and
American culture, which include performing well on high stakes tests. The discrepancy
between minority and White American students’ achievement levels on the California
State Standards Test (CST) is described as the achievement gap.
ALGEBRA FOR ALL 43
Achievement gap related to assessments. The achievement gap is not only
important because it highlights academic differences which exist, but also because it
relates to how well students will perform on high-stakes tests such as CAHSEE, Algebra
I, and the SAT, which are all considered gateways to graduation and higher education.
Rumberger and Gándara (2004) indicated the California High School Exit Exam
(CAHSEE) is a standard-based, criterion-referenced test that has become a high-stakes
test for English Learners. Data on CAHSEE passage rates show patterns which support
the concept that English Learners are not performing the same as non-English Learners
(Department of Education, 2011). According to the California Department of Education,
only 19% of English Learner students in the year 2004 passed after two opportunities
compared to 48% of all students (CDE).
Since the NCLB Act (2001) was passed in 2002, states have been required to
develop standards, administer tests aligned with those standards and expand
implementation so that, by 2005-2006, every student in grades 3 through 8 is tested in
both reading and math. In addition, states, districts and schools are required to make
yearly progress towards proficiency rates or risk the consequence of sanctions (Powers,
2004). The expectation of the NCLB (2001) is that all students will score proficient and
above by the year 2014. Currently, the California State Academic Performance Index
(API) score for English Language Learners is 692 and that of White students was 838.
There is a gap of 146 in terms of performance. In regards to graduation, the state goal is
90% for all students. In 2009, the graduation rate in California was 80.21% and, in 2010,
the graduation rate decreased to 78.9%, a decline of 1.31%. White students met the AYP
goal of 70.9% at or above proficient, while English Learners scored 35.6%, and Hispanic
ALGEBRA FOR ALL 44
or Latino students scored at 41.7%. Only the white Asian and Pilipino subgroups met
their AYP goal in both English and Math in 2010. The achievement gap caused school
and school districts to analyze the impact their subgroups have on overall achievement
scores.
Much renewed attention on English as a Second Language (ESL) Learners
resulted from California’s robust efforts to increase rigor and math success rates for
subgroups. This effort stems from NCLB (2001) and, along with the implementation of
high-stakes accountability testing such as Algebra I and CAHSEE assessments,
accountability measures contributed to an overall achievement gap for English Learners.
For example, all districts in California are obligated under the Under the No Child Left
Behind Act (2001) to implement accountability systems to verify yearly progress of
students. Achievement levels are intended to illustrate “appropriate performance
standards for each grade in each subject area to be tested under the National Assessment”
(Improving America’s Schools Act, 1994). The percentage of students achieving at or
above these levels are labeled Basic, Proficient, and Advanced...” (Hombo, 2003, pp. 59-
60).
Moreover, Adequate Yearly Progress (AYP) goals are set by the state in order to
measure student progress. The AYP goals encompass four areas: student participation
rates, student percent proficient (also referred to as Annual Measurable Objectives or
AMOs), Annual Performance Indicator (API) as an additional indicator for AYP, and
student graduation rates. Each of these four areas has specific requirements. Participation
rate and percent proficient criteria must be met in both English language Arts (ELA) and
in mathematics. The problem in California in reference to the Hispanic student
ALGEBRA FOR ALL 45
population is differences in OTL, as a lack of opportunities affect English Learner course
participation rates and outcomes on achievement tests (Herman & Abedi, 2004, Madison,
2000; McDonnell, 1995; Rumberger & Gándara, 2004).
Achievement gaps related to English Learners. Among minority groups,
English Language Learners have historically and consistently scored below basic on ELA
and Math California Standard Tests (CST) while their white counterparts score
remarkably higher. When comparing EL Learners to other second language learners,
Latino students score lower than other second language learners who migrate to
California from other countries. Trends reflect that immigrants from other countries
enter the United States with higher levels of school completion. Hispanic/Latino students
in urban districts more often come from low socio-economic status background and low
parental educational levels, both of which are associated with low student achievement.
Morales and Saenz (2007) states socioeconomics is a major cause for gaps related to test
scores. Therefore, accountability practices that require mandated tests be given to
students who are not proficient in English also contribute to achievement gaps
(Rumberger & Gándara, 2004).
Achievement gap studies. There are other variables that account for the current
achievement gap between Hispanic/Latino sub-groups and their White counterparts
(Oakes, 1990; Rumberger & Gándara, 2004; Valencia, 2002). Researchers identified
disparities in teacher preparation programs (Oakes, 1990; Powers, 2004, Rumberger &
Gándara, 2004), and disparities in teacher preparation program which included math
course taking (Darling-Hammond, 1990; Wang & Goldschmidt, 1999).
ALGEBRA FOR ALL 46
While it may be argued that the achievement gap appears to be closing, Loveless’
(2009) study on 160,000 eighth graders showed that, while the national average of scores
rose, the advanced scores fell. That means the achievement gap is not closing, as the
score reflects a loss of advanced scores. Additionally, as the Algebra I enrollment rose
from 26.7% to 36.6%, there was a decline in general math scores (Loveless, 2009). It
was noted that eighth grade low achievers in advanced classes scored lower than all 4
th
graders. Further, the National Assessment of Educational Progress (NAEP) scores for
each state, which are based on advanced classes such as Algebra I, Geometry, and
Algebra II, indicate there was an increase in advanced math class enrollment of 8
th
grade
students. The national eighth grade math rose from 273 to 281 between 2000 and 2007.
The limitation of this data is that eighth graders self-reported which courses they had
taken and this may have effects on validity of that data, as they may have not known the
name of the exact course taken.
Rumberger and Palardy (2005) attributed differences in the achievement gap to
the socioeconomic status of the schools. School demographics played a significant role
in student achievement, and, in support, the Coleman report (1990) stated achievement
for all racial and ethnic groups was found to be higher in schools with higher proportions
of White students because White students had better educational backgrounds. This
finding was later referred to as a middle-class peer-effect, and it became a popular reason
cited in defense as to why desegregation by race is important. The findings also
suggested that schools which service mostly lower-income students operate differently
than schools that service more-affluent students (Rumberger & Palardy, 2005).
ALGEBRA FOR ALL 47
Research by Siegel (2011) attributes achievement gaps to teacher perceptions and
expectations of students of different socioeconomic and racial groups as a root cause of
racial achievement gaps. In addition, the study analyzed the impact of parental education
level and family income and found that, between Hispanic and White students,
discrepancies in wealth and education of parents among average White and Hispanic
families are more likely to affect Hispanic students than White students. However, after
correcting for socioeconomic and language status, this gap also occurs at higher
socioeconomic levels. It noted that mitigating the impacts of poverty and limited English
proficiency would not close the achievement gap, and, instead, it suggested further
research regarding expectations for Hispanic students. This study did not expand to
changes in achievement gaps across grade level progression nor did it apply to higher-
grade levels as this study does.
In order to address achievement gaps, reform efforts have tried to close the
achievement gap by increasing accountability measures. For example, the Annual
Performance Index (API) includes Annual Yearly Progress (AP) scores, which track the
progress of subgroups such as ESL Learners. There appears to be agreement among
researchers that a correlation between students’ socioeconomic status and achievement
gap exists (Rumberger and Palardy, 2005; Wang & Goldschmidth, 1999). It would seem
that, in order to close the achievement gap, one must first close the socioeconomic gap.
However, opportunities to learn are key factors, which may influence and make a
difference in a student’s life. The problem with opportunities is that not all districts offer
the same opportunities to learn despite mandates (Darling-Hammond, 2006; Mullis et al.,
1991; Silver, 1997).
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Although substantial information has been documented on the educational
achievement gap that exists between minority groups and their White counterparts, most
recommendations for closing the achievement gap have not shown a significant impact
on English Learners, specifically low SES EL Learners.
Achievement gap and OTL. English Learners do not have the same opportunity
to learn in terms of course taking (Wang & Goldschmidt, 1999). Gamoran and Hannigan
(2000) used national survey data to examine the impact of high school algebra among
students who differed in their math skills. Students who are assigned to college-
preparatory courses such as algebra and geometry learned more and were more likely to
pursue higher mathematical studies. Despite the benefits of early entry into college-
preparatory math classes, many school systems diverted students from taking algebra
upon entering high school (Gamoran & Hannigan, 2000). White, Gamoran, Smithson &
Porter (1996) stated that high school mathematics curriculum sorts ninth-grade students
into courses such as general math, pre-algebra, algebra, or geometry (as mentioned in
Gamoran and Hannigan, 2000). Higher educational systems add to the achievement gap,
as tuition rates have increased at universities and made it financially challenging for
minority students to attend.
Segregation Theory
Critical Race Theory. According to Delgado (1995), Critical Race Theory
(CRT) suggests racism as pervasive and structurally endemic that affects minority
students’ progress in schools and their performance on high-stakes testing (as cited in
Marx, 2008). Evidence such as Affirmative Action and NCLB are examples that society
recognizes that gaps exist because of race and ethnicity. Students are segregated into
ALGEBRA FOR ALL 49
groups based on a belief that some are smarter than others. Institutions are created to
help end these injustices. However, whenever groups try to maintain their interest, other
barriers (such as high-stakes testing) arise in order to stop the process. According to
Collins (1993), conflict gives rise to subsequent conflict (as mentioned in Green, 2004).
The idea is that an opposing side will counter-mobilize as a function of the group’s
ability to galvanize resources in order to weaken and diminish the group who is trying to
maintain their interest. Green (2004) stated social conflict occurs over limited social
resources, and this produces a struggle between people who have and those who do not.
As a result, achievement disparities on high-stakes testing are created in order to limit
resources to those who have versus those who do not. This reality leads to reasons an
achievement gap on high-stakes tests exist.
Cultural Ecological Theory. Ogbu and Simons (1998) published comparative
work in six countries: Britain, India, Israel, Japan, New Zealand, and the United States
and found that all minorities were historically denied equal educational opportunities in
terms of access to educational resources, treatment in schools, and rewards in
employment and wages. It is argued that, while cultural and language differences do
cause learning problems, it is cultural ecological theory that determines student success
(Ogbu & Simons, 1998). Ecological theory refers to the environment of minorities, and,
specifically, how people in the environment treat them and how the minorities see
themselves in that environment. Ogbu and Simons (1998) state that all the minorities in
their studies experienced discrimination in educational policies such as school
segregation and unequal funding and staffing. In addition, students were discriminated
against by their teacher expectations, teacher to student interaction patterns, grouping,
ALGEBRA FOR ALL 50
and tracking. Structural barriers of discrimination in society and school are important
determinants of low school achievement among minorities
A related study by Marx (2008) explored cultural and linguistic dynamics in a
secondary school and found that Latino students did not blend in as a result of the
environment. White students responded more positively to school experiences than
Latino students did. Latino students reported feeling less prepared than White students.
Qualitative observations and interviews supported the idea that teachers, as part of the
school environment, affected Latino students’ perceptions of school. White teachers
indicated they contributed to feelings of disenfranchisement by insisting Latino students’
home cultures “do not matter,” by rejecting Spanish in their classroom, and emphasizing
the importance of assimilation (Marx, 2008). As a result, Latino students were less
convinced that English fluency was a critical component of school success.
History of Hispanic segregation. Forced segregation of Chicano children and
youth from their White peers has its roots in the post 1848 decades following Treaty of
Guadalupe Hidalgo (Valencia, 2002). After 1870s, the number of schools for Mexican-
American children increased due to mandates. However, due to a context of
discrimination and a general subordination of Mexican Americans, this dual message
caused a pattern of institutional discrimination reflected in establishment of segregated
schools for Mexican Americans (Valencia, 2002). Valenzuela (2000) states Mexican
American students learned to subtract themselves from the education process by dropping
out or withdrawing themselves through absences. They do not identify with school
practices, and, therefore, feel it does not pertain or apply to them, mainly because they do
not feel valued (Olsen, 2010 Valenzuela, 2000,). As a result, many students fail classes,
ALGEBRA FOR ALL 51
are absent or tardy on a regular basis, and, later on, drop out of high school. “Oppression
is a system of interrelated barriers and forces which reduce, immobilize and mold people
who belong to a certain group, and effect their subordination to another group
(individually to individuals of the other group, and as a group, to that group" (Frey,
1983).
Misunderstandings that contribute to segregation policies. False assumptions
and misunderstandings about English Learners arise because of negative or less valued
attitudes towards the Latino population (Valenzuela, 2000). Perceptions that English
Language Learners are low achievers and have low ability have contributed to
segregation practices, otherwise known as homogeneous tracking. These common
misunderstanding in regards to EL students who do not progress and, therefore, do not
reclassify or graduate at appropriate rates is that these outcomes are attributed to
deficiencies in the English language or to lesser abilities to learn (Valenzuela, 2000). In
fact, English Learners who attend secondary schools are set behind because they are often
given multiple periods of English as a Second Language (ESL) classes, while other
students are scheduled into a more comprehensive program (Rumberger and Gándara,
2004, Olsen, 2010).
As previously mentioned, reform efforts have not helped English Learners due to
the false assumptions that EL learners are homogenous (Reyes & Valencia, 1993). This
assumption is based on the idea that students need to be grouped together due to a
language commonality or barrier and that they share the same learning needs (Olsen,
2010). The Lau v. Nichols (1974) states, “…merely by providing the same textbooks,
teachers, and instruction, a student who does not speak English is foreclosed from a
ALGEBRA FOR ALL 52
meaningful education.” In addition, contrary to the 2002 vote by the State Board of
Education to adopt an English Language Arts textbook program for all, supplementary
materials were provided instead. Currently, English Learner advocates await a renewed
provision for supplementary materials to support English Learners with the incoming
Common Core standards (CDE, 2012; Olsen, 2010).
Another misunderstanding that affects English Learners and, hence, affects low-
ability placement is the overreliance on state test scores as relevant data. Teachers and
schools who do not share the same language as their students tend to rely on state
assessments to make judgments and decisions about categorizing students (Gándara &
Rumberger, 2003). However, testing students in a language they are not proficient is
invalid and unethical (Rumberger and Gándara, 2004).
Segregation as an input. States and school policies regarding scheduling
procedures contribute to segregation practices, as they are also based on
misunderstanding and false assumptions about what English Learners need. The extent
to which EL learners are segregated by being put on low-ability tracks is a result of
segregation practices.
Despite 30 years of pursuing equity, there are still deplorable school facilities, an
absence of textbooks and materials, inadequately prepared teachers are observed in
schools who are nonwhite and poor (Kemerer, Sansom & Kemerer, 2005; Williams v.
California, 2007). Success is, therefore, withheld or hindered by district policy and
bureaucracy, as low-level classes are not beneficial for any low-achieving students
(Buris, Corbett, Heubert & Levin, 2004; Kifer, 1993; Valencia, 2002).
ALGEBRA FOR ALL 53
Outputs of segregation. Bennett (2001) found there continues to be a declining
rate of college access since the early 1970’s, and the college-going pool is shrinking for
African-American and Latinos. The fact that people of White descent are not
experiencing the same decline in the college-going pool as other groups of people adds to
the achievement gap. Literature on high-stakes testing and reasons students do not
perform well on them is an area that needs more research (Rueda, 2005; Valenzuela,
2000).
Outcomes that result from students dropping out of high school include increased
crime and increased cost for community services. For example, a loss of income is
experienced as the jobs of future will not only require college degrees but also require
proficient knowledge in the areas of science, mathematics and technology (Brown &
Campbell, 2008). In a 2011, compendium report by the National Center for Educational
Statistics (NCES), which included a Current Population Survey (CPS), the Annual
Common Core Data (CCD), and the General Education Development Testing Services
(GEDTS), Black and Hispanic students had higher event rates than did Whites in 2009.
According to Chapman, Laird, Ifill, and KewalRamani (2011), the median income for
students who drop out is $25,000, and the median income of persons 18 to 67 who
graduate or receive a General Education Development (GED) certificate is $43,000. This
translates into a $630,000 loss of income over a person’s lifetime (Chapman, et al.,
2011). Further, comparing students who drop out of high school with those who
complete high school, the average drop-out costs the economy $240,000 over his/her
lifetime due to lower tax contributions, Medicare use, welfare, and higher rates of crime
(Levin & Belfield, 2007 as mentioned in Chapman, Laird, Ifill, and KewalRamani, 2011).
ALGEBRA FOR ALL 54
The future of English Learners is important as the Mexican-American, Hispanic/Latino
population is projected to become the new majority. This fact is relevant to the future
economy as a whole. The concern is that students who come from homes in which
English is not the primary language are not progressing at the same rate as other
minorities or their White counterparts.
Research indicates the main predictor for success for English Learner students is
their economic status (Morales, & Saenz, 2007; Seymour, 2010). Already, there is a
disproportional achievement gap and economic gap for this subgroup. Adding to the
hindrance are the following barriers: segregation efforts through tracking, and losses of
opportunity-to-learn by inequitable decisions. Are California schools prepared to service
English Language Latino students? What can districts do to reduce the educational gap
in order to help English Language students improve and have access to opportunities to
learn?
Mandates. Mandates have been institutionalized in order to protect a person’s
civil rights and right to a free and appropriate education. Although mandates have both
the power and influence to determine opportunities for all students to learn, they
sometimes have unintended consequences which hinder and segregate students from
equal opportunities to learn. For example, the mandate that each English Learner
students be placed in an appropriate ELD program protects the right to learn English at
students’ fluency level. However, this same mandates requires exit criteria, which differs
from district to district. Exit requirements become an obstacle late on in secondary
education curriculum because, many times, an ELD class takes the place of an elective.
ALGEBRA FOR ALL 55
Furthermore, Hochschild and Scovronick (2003) argue that desegregation
mandates have not worked. The federal government attempts to institute an equitable
solution to inequalities in education by race and ethnicity, but it is faced with an uphill
battle given the cultural norms that have been ingrained in U.S. society. When one
positive step is made towards equality, then, eventually, another counter step changes or
softens a mandate. The danger in softening mandates is that some counterproductive
changes are hard to undo. For example, after the Milliken v. Bradley case, the Supreme
Court began to develop guidelines to release districts from court supervision, and
loopholes have now allowed courts to announce discrimination must be “eliminated to
the extent practicable” (Hochschild & Scovronick, 2003). Those words make it hard to
hold districts accountable.
Tracking and Academic Achievement
The bureaucratic system of education, which includes assessments, does not
support English Language Learners’ development. English Learners experience school
differently than their native English-speaking counterparts. Students are put on regular
tracks, meaning they have non-honors and non-college classes as a result of testing low
on standardized tests. High school exit-level exams discourage students who would have
been motivated to work in a skilled occupation from obtaining a high school diploma
(Valenzuela, 2000) because they score very low rates. Knowing the value of passing
these difficult tests and knowing that their future is held hostage as a result of the need to
succeed in them, students develop unproductive strategies of action and either drop out,
are absent, and or enroll in continuation schools as a form of escape.
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Although tracking practices can benefit some groups of students, for most, the
tracking path contradicts itself, as it only serves to place students further behind.
Spielhagen (2006) found that tracking did not benefit low-performing students. Once a
student is identified as an English Language Learner, s/he is put on a lower path of
instruction and curriculum due to low expectations. As a result, these students do not
have the same opportunity to learn as prescribed by NCLB (2001). In support of not
tracking students, Schofield (2010) found that being in a classroom with high-ability/high
achieving classmates was associated with increased achievement.
There is not a large body of literature on the subject of EL curriculum tracking
and the impact tracking has on student academic success (Callahan, 2005). When it
comes to high school, the research quantity is more trifling. There is a need to revisit
course-taking patterns and there is a need to focus on classroom instruction that focuses
on academic content (Callahan, 2005). This study looks at the pattern of tracking
Algebra at appropriate grade levels in order to determine student academic success.
High-ability tracking v. Low-ability tacking. High-track students have more
time to learn, teachers are clearer, classroom-learning tasks appear more organized, and
students are engaged and more active learners (Oakes, 1992). Lower track classes, on the
other hand, are dull and consist of passive instruction and more time on routine,
seatwork, and worksheet activity (Oakes, 1992). The use of tracking to address ability in
math and science stems from widespread belief that there are intellectual differences and
perceived abilities are so great that these students need to be taught in separate classes.
According to Buttaro, Catsambis, Mulkey and Steelman (2010), slow tracking for
Hispanic students continue to exist under the guise of homogenous grouping. Hispanic
ALGEBRA FOR ALL 57
students in wealthy districts are being segregated and put into slow tracks (Spielhagen,
2006). Students in high-performing tracking pathways outperform students who were
placed in low-performing track pathways. Unfortunately, students on high-performing
tracks are less likely to be from minority groups (Smith, 1996; Spielhagen, 2006).
Low-level tracking/pathways. The theory behind tracking presumes some
students need simplification (Callahan, 2005) therefore; a cycle of low-level tracking for
remedial or low-tracked student is perpetuated. First, unequal learning opportunities help
to create and perpetuate differences in achievement and participation (Oakes, 1990).
Second, opportunities push a particular group of students towards higher achievement
and, therefore, others are on a lower track of achievement. Third, the curriculum needed
for these students is not appropriate in secondary schools (Callahan, 2005; Oakes, 1990).
As mentioned by Callahan (2005) learning English as a second language serves to
slow down pathways because schools focus more on linguistics needs and neglect
academic development. The direct impact Algebra for All has on the 75% of students,
whom we know are not successful due to both low SES and their low levels of acquired
English Fluency, remains to be further explored.
Tracking and English Learners. Students who are identified as second
language learners are, by law, placed into an ELD program, based on their CELDT
levels, designed to help students acquire the English language. Once in an ELD program,
students are required to have 45 minutes to one hour a day of English Language
Development instruction. Students exit the program based on a set of district criteria,
which include obtaining a score of 4 (Early Advanced) or a 5 (Advanced) level on the
CELDT test. This mandated program has long been recognized as a tracking and
ALGEBRA FOR ALL 58
systemic problem, as research has shown it denies students a rigorous academic pathway
that would help them achieve a college and career readiness level. Rumberger and
Gándara (2004) agree that this course of study has added challenges for EL students to
prepare themselves to meet the requirements for high school graduation. Many EL
students are not eligible to take college requirements or higher-level classes in high
school, and they do not have the opportunity to apply to universities as a result of not
being college-ready. English Language students in affluent communities are more likely
to be segregated and put on a slower academic track than other student populations.
Tracking and its relationship to OTL. Frequently, English learners are
inadequately informed as to the breath of their choices and the consequences of taking
one class over another (DeLany, 1991; Romo & Falbo, 1996, as mentioned in Callahan,
2005). Although every student has an English class, math classes differ in that the
content taught varies as students progress from elementary to secondary. If a school
determines a student is not ready for Algebra, s/he will be put into a pre-Algebra course
or not allowed to enroll until a later time. The problem with this method for English
Learners is they will more likely be put on low-ability tracking despite having the ability
to learn. With that in mind, opportunities to access and achieve in math are interrupted by
school policies and practices.
Oakes (1990) shows that students who do not do well in math in elementary
grades will suffer the consequences and that these students are not in the position to
obtain careers. A problem for English Language Learners is they suffer from a loss of
equity due to lower-ability tracking patterns. They are unable to catch up by the time they
are in high school and, as a result, they drop out of high school. One reason is that math,
ALGEBRA FOR ALL 59
which needs to be taught sequentially, is hard enough to learn in one year, and, when
English Learners find themselves trying to learn what others learned in several years, it
becomes overwhelming. According to Mansini (2001), ethnic minorities have less
exposure to content and math instruction tends to cover less (as mentioned in Herman &
Abedi, 2004). Another reason is that, when students are placed in remedial courses, they
are not taught conceptual math concepts but, instead, continue to receive procedural
instruction.
Tracking and its relationship to dropout rates. Students who drop out of high
school and/or do not go to college increase expenditures for government assistance to
individuals and families, add to an increase in crime rates, and disenfranchise from
society and its institutions (Amos, 2008; McDill, Natriello & Pallas, 1986). As a result,
students face limited occupational choices. The English Language learner population
continues to grow, and there will be a majority group of people who are not educated if
we do not find ways to help students feel connected to the school environment and make
higher education available to them (Amos, 2008; Morales & Saenz, 2007; Valenzuela,
2000).
College level entrance exams, which tend to serve as the determining factor for
whether students will attend college, are biased against English Language Learners
(Morales & Saenz, 2007). Despite the controversies, standardized testing continues to act
as the gateway to higher education, which means high-stakes testing will continue to
contribute to the achievement gap that already exists between white Americans and
minorities entering universities unless more attention is brought to discriminating factors
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which prevent English Language Learners from moving into higher educational
opportunities (Morales & Saenz 2007; Valenzuela, 2000).
Studies on tracking. Although there is not a large body of literature on the
subject of EL curriculum tracking and the impact tracking has on student academic
success, Callahan (2005) found English Learners are not progressing as their mean scores
fell below those of recent immigrants on three of six academic achievement outcomes:
GPA, credit ratio and CAHSEE math. In addition, their SAT 9 scores were significantly
lower. District policies and scheduling practices, as they relate to who may have access to
what classes, contribute to segregation in California schools (Act, 2008). Implications for
Second Language Learner students is that, from the time they enter into an English
Language Development (ELD) program until they reclassify and beyond, they are more
likely to be put on a slow-paced and low-ability track for instructional purposes.
OTL and Success in Math
Adoption of math standards - background of the problem. The idea that, for
the first time in history, the next generation will not surpass or equal their parent’s
education attainment was a major concern with broad appeal (A Nation at Risk, 1983).
The Nation at Risk report’s urgent cry for help was based on the perception that
America’s prosperity and security is at risk based on the following indicators: American
children are behind academically in comparison to other countries, 23 million American
adults are illiterate, 13% of 17- year olds are illiterate, 40% of youth are from minority
populations, the College Board found a decline in physics and English, and lower
achievement scores indicate American students are behind in comparison to other
countries in the areas of reading, writing, spelling and computation. With technology
ALGEBRA FOR ALL 61
growing rapidly, a concern is that America is raising technologically and scientifically
illiterate students. The public agreed that the United States was at risk and, in 2002,
NCLB was instituted.
NCLB. The theory of action behind NCLB suggests that, if we raise our
standards and set yearly benchmarks to allow states to catch students up and measure
growth with AYP targets, then all students will be proficient by the year 2014. The
action included monetary funds to help support states and districts with additional
interventions for those with lower socioeconomics and lower-achieving subgroups.
However, the administration of the program fell short due to policy instruments, a lack of
implementation and enforcement, and the ways in which schools were evaluated.
NCLB (2001) intended to close the achievement gap, and provide flexibility
choice so that no child is left behind (NCLB, 2001). In addition, it designed a
distribution model and targeted resources sufficiently to make a difference for local
agencies with greatest need. Title 1, Part A, subpart I, states there should be challenging
standards, and part F prohibits a state from revising existing standards (Public Law 107-
110 January, 2002). Accountability measures for NCLB stated each state shall
demonstrate adequate yearly progress (AYP) and allowed each state the right to set its
own targets and develop its own standards. Each state and local district was made
responsible for increasing student achievement by providing rigorous standards in order
to make sure students are ready to compete in the 21st Century. The goal was that all
students should reach proficiency by 2014. Assessments such as the California State Test
(CST) were designed to measure students’ progress and proficiency on grade level work
ALGEBRA FOR ALL 62
and national assessments are meant to measure what students ought to know (Viadero,
2010).
NCLB’s goal was to provide provisions that would ensure all students have equal
opportunities to learn so that all students would be on track towards proficiency. The
accountability authors of the API and AYP accountability measures made sure all
subgroups were accounted for and calculated into the overall determination of a district’s
success rate. They help monitor and regulate the achievement of subgroups in order to
ensure no child would be left behind. California reports student achievement data and
outcomes on a California Report Card (SARC), which is posted on the California
Department of Education Website.
Math adoption. California adopted academic content standards for math in
1997 and it included Algebra I for 8
th
grade (Rosin, Barondess & Leichty, 2009). Later,
in 2005, Algebra I became a requirement for high school graduation as it was instituted
into the California Math Frameworks. Algebra I became an official test students needed
to pass in order to graduate. Passing Algebra by grade 8 is important because it gives
students more time and opportunities to retake the course if needed.
High schools are accountable for providing courses that fulfill the minimum
criteria for University of California (UC) and the California State University (CSU)
systems. Districts have decision rights over the use of different philosophies and
approaches toward math curricula. A traditional curriculum begins with Algebra I and
moves onward to Geometry, and, later, Algebra II. The sequential order depends on each
school district (Rosin, Barondess & Leichty, 2009). The order is related to on-time course
taking, and that feeds into on time graduation rates.
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NCTM standards. National Council of Supervisors and Mathematics (1988)
advocated for math reforms and endorsed and published three major components known
as the “NCTM Standards”. This document outlined standards for grades K through 4
th
,
grades 5 through 8
th
and grades 9 through12
th
. The Standards represented an increased
expectation for student proficiency with mathematics so that students are able to
understand math processes through communication in the language of math (Miller &
Mercer, 1997). The Standards promoted advanced skills such as algebra and geometry.
The trend for higher standards increased rigor and made it difficult for “all” students to
meet the requirements of a high school diploma (Miller & Mercer, 1997). Rigor has
increased in textbooks, classroom planning and teaching (Resnick & Resnick, 1985).
Increased Competency Testing
Math and OTL. NCLB (2002) required that California standards outline
mathematical content taught at particular grade levels, and, because high stakes are
attached to mandated assessments, determining which students have opportunities to
learn math is important (Herman & Abedi, 2004; Spielhagen, 2006).
Algebra for All Initiative (2005)
Algebra for All and its implications for English Language Learners. The
Algebra for All mandates of 2005 opened the door of opportunity for EL students by
mandating that districts should enroll all students in Algebra I by grade 8. Algebra for
All has become a goal in school reform and is supported by the NCTM (Chambers, 1994;
Miller & Mercer, 1997). Although Algebra for all was supposed to be implemented in
2005, it has not been universally implemented (Gamoran & Hannigan, 2000). Districts
have approached the transition by bridging the gap between low-level and college
ALGEBRA FOR ALL 64
preparatory math (White et al., 1996). Unfortunately, the OTL data regarding algebra in
California showed that 10% of students received no algebra instruction and 25% who
received instruction only received half of the math content covered on the algebra
subtests; this was attributed to class assignment (McDonnell, 1995). Research shows that
ethnic minorities and English Learners have less exposure to math content, and they are
highly overrepresented inn lower level mathematic courses (Gross, 1993; Herman &
Abedi, 2004; Oakes, 2004).
Algebra has been called a “gatekeeper” because successful completion of an
algebra course is a prerequisite to further studies in math and many jobs or later
opportunities Silver (1997). Unfortunately, recent NAEP data indicates that less than half
of students in urban schools take any mathematics beyond one year of algebra and one in
five may not study algebra (Mulllis et al., 1991). In addition, statistics show that
minority students often make unguided decisions in high school and drop mathematics
(as mentioned in Silver, 1997). Jetter (1993) states equity is so important that access to
algebra is a crucial issue for civil rights movement for minorities (as mentioned in Silver,
1997).
Timing of algebra. According to Spielhagen, (2006) two events have influenced
the timing of Algebra. First, the need to increase math literacy was established by the
National Council of Teachers of Mathematics (1989) and, second, five years later, grade
8 became the right time to take algebra based on the National Council of Education
Statistics (1994) report. It stated that schools that offered algebra in grade eight were
more effective (Spielhagen, 2006). In addition, Smith (1996) determined that early
access to algebra has positive sustaining effects on students and that exposure to
ALGEBRA FOR ALL 65
advanced mathematics is better than not. Moreover, the TIMMS –R concluded that the
grade 8 mathematics curriculum in the U.S. was comparable to the average grade 7
curriculum, which indicates that U.S. students are behind other countries (Spielhagen,
2006).
Silver’s (1997) counterargument to early algebra states that, although students
take Algebra I, not all do well, and, therefore, the timing of the class is important.
Further, the National Assessment of Education Progress (NAEP) reports that less than
half of all students take any more math courses after Algebra I, and many twelfth-graders
have scored poorly on algebra concepts (Silver, 1997). Nevertheless, taking algebra in
grade 8 is better than not taking it (Gamoran & Hannigan, 2000; Spielhagen, 2006).
Despite an increased interest in providing algebra to 8
th
graders, educational
research has conducted few studies regarding the effect of taking Algebra I or other on-
time math courses (such as Algebra II or Geometry) on EL Learner success rates in both
math and ELA. English Learner research has not provided strong evidence to show what
happens when English Learner students are given opportunities to learn rigorous material
such as Algebra I because it has been difficult to show what other factor besides SES, can
have an impact on success.
Studies on Algebra for All. The National Center for Education Statistics conducts
longitudinal studies on English and math trends. The most recent math trends from the
2007-2008 school year showed that, while there was some math gains for 9 and 13-year-
olds, the average scores for secondary students (17-year-olds), did not significantly
change since the 1973 (NEAP, 2008). Results yielded support for the Algebra for All
initiative, as the study found that higher-level mathematics courses was associated with
ALGEBRA FOR ALL 66
higher scores on the 2008 mathematics assessments. However, the performance of
twelfth grade students on many algebra related tasks on the NAEP suggests enrollment in
these courses does not ensure mastery (Mullis et al., 1991). A benefit to having an
increased percentage of students enrolled in Algebra classes is that these students score
higher on average than students enrolled in either Pre-Algebra classes or general math in
2008 than they did in 1986 (NEAP, 2008). However, because the increase was not
significant enough more in-depth-research on how high math courses relates to English
Learners is needed.
Benefit of algebra in grade 8. Gamoran and Hannigan (2000) used national
survey data to conduct a study on the impact of high school algebra on 12,500 students
who differed on their math skills before entering high schools. Students who had access
to Grade 8 Algebra were Whites, and Asians and females, while males, African
Americans and Latinos were underrepresented in this group. Data on 3,000 student data
were excluded from the analyses because of missing transcript data. However, the overall
study results indicated that all students would benefit from taking algebra, even students
from low SES backgrounds. The difference between students who took algebra and those
who did not was significant enough to support the Algebra for All initiative in that all
students should take algebra. According to Spielhagen (2006), two events have
influenced the timing of Algebra. First, the need to increase math literacy was
established by the National Council of Teachers of Mathematics (1989) and second, five
years later, grade 8 became the right time to take algebra based on the National Council
of Education Statistics (1994) report. It would be, therefore, valuable to study which
districts are still continuing to deny students access and OTL.
ALGEBRA FOR ALL 67
Who takes algebra? Spielhagen’s (2006) mixed-method study on policy
implications and potential benefits of providing algebra instruction to all students was
conducted on a large southeastern suburban school district. Characteristics of students in
each of the algebra pools, which consisted of eighth grade and post-eighth grade students,
and the effects of their math course-taking for eighth grade (n=2,634 were examined.
The study attempted to determine who got into eighth grade algebra, what background
circumstances affected the district and what effect did studying algebra in eighth grade
have on student achievement and attainment (Spielhagen, 2006). This study revealed that
a greater proportion of Black and Hispanic students were enrolled in Mathematics 8,
while a larger proportion of Asians and White students were enrolled in Grade 8 Algebra
1 (Spielhagen, 2006). Caucasian students were 1.4 times more likely to get into an early
algebra group. In agreement with the study above, Silver (1997) states there is an
inequality that exists for students of color in regards to access to Algebra courses. The
proportion of students taking one or two years of algebra is lower in urban schools in
comparison that in affluent communities (Silver, 1997).
In regards to student background and how students were selected, it was noted
that once a student is on a particular track, s/he stays on that track (Spielhagen, 2006).
However, the district did support parents who insisted on their students’ staying on a high
track. A difference is that parents of minority students who are from lower SES schools
are not likely to question the placement of their children. Spielhagen (2006) states that,
once students gain access to Grade 8 Algebra, the majority of them pass the state exam in
algebra despite having some difficulty with the subject. Therefore, this finding prompts a
closer examination of student achievement and student enrollment.
ALGEBRA FOR ALL 68
In support of Algebra for All, the outcomes of this study showed that students in
the access group, Grade 8 Algebra I, scored higher than their peers, but, on the state test,
the scores of both groups were closer in range (Spielhagen, 2006). In support of
detracking, the study found tracking did not benefit lower performing students. It was
noted that students who had the opportunity to take algebra through parent or teacher
override gained access to eighth grade algebra (OTL) and were successful. These
students received the benefit of “jumping the tracks” and had the opportunity to take
more math courses (Spielhagen, 2006). Because this study was conducted on
southeastern suburban students’ generalization is compromised. Therefore, an
examination of enrollment practices and success rates for students in urban districts is
needed.
Summary
All minority groups, 37 percent of the US population, are projected to comprise
57 percent of population in 2060 (U.S. Census Bureau, 2012). California is one of the
few states in which minorities will soon be the majority (Teranishi, Allen, & Solorzano,
2004; U.S. Census Bureau, 2012). The State of California Department of Finance
demographic research unit found that, in 2002, California became home to the largest
number of legal immigrants (27.4%) from10 countries and 36 percent of them were born
in Mexico. The remaining 39 percent of the total include those from the Philippines, the
People’s Republic of China, India, El Salvador, Vietnam, Guatemala, Iran, Korea, and
Taiwan (State Department of Finance, 2013). A major concern in California is the rapid
growth of the Mexican-American Latino population and, unless the education system is
prepared to better service English Language Learners, dropout rates may rise to an all-
ALGEBRA FOR ALL 69
time high. The state and communities will have to deal with a large number of students
who are not qualified to compete in the 21
st
Century because they do not have basic skills
or the education necessary to obtain careers or attend higher education. Further,
California communities may experience the consequences of not investing in a large
group of struggling youth that are at risk of living in poverty or below poverty levels.
The rising Hispanic/Latino population is not only growing in number, but, since
they are dropping out at high rates and not graduating high school, this is a societal
problem (Kholar & Lazarín, 2007). There should be an urgency to save the generations
of children who do not meet grade level standards. Although it has become common
knowledge that tracking students leads to inequitable opportunities to learn, today’s
secret is that many students are prohibited from accessing classes that will help them
graduate. This study focuses on English Language Learners because they are a low-
performing subgroup that is marginalized and segregated in many public schools. As a
result, the achievement gap continues to widen for them, and they are slowly being
subtracted out.
Without a substantial increase in the educational achievement of underrepresented
groups, the nation will continue to risk not meeting future human capital needs such as
those for science and technical positions. Mathematics Teaching in the 21
st
Century
(MT21), a cross-national study, found that a teacher “preparation gap” is what affects
student OTL (2011). This study was based on 2,627 future teachers from 6 countries,
including the United States and it differs from the Third International Math and Science
(TIMSS) study in that the highest mathematical level of teacher preparation programs
ALGEBRA FOR ALL 70
was found in Taiwan and Korea. This study attempts to link OTL and the Algebra for All
(2005) initiative. The research questions are:
1) To what extent, if any, have large urban school districts in CA increased ESL
access to early algebra between 2004 and 2012?
2) To what extent, if any, have large urban school districts in CA decreased the
gap between ESL and White student access to early algebra between 2004 and
2012?
3) To what extent, if any, have large urban school districts in CA increased ESL
success in Algebra I between 2004 and 2012?
4) To what extent, if any, have large urban school districts in CA decreased the gap
between ESL and White student Algebra I success between 2004 and 2012?
ALGEBRA FOR ALL 71
Chapter 3: Methodology
The purpose of this study is to evaluate the effect the Algebra for All (2005)
initiative has had on opportunity-to-learn and Algebra I achievement of California
students designated as English as a Second Language Learners (ESL) as measured by
Algebra I participation rates and Algebra I achievement on the California Standards-
based Test (CST) within Standardized Testing and Reporting (STAR). In addition, this
study aims to provide new knowledge to further investigate the harmful effects that
tracking has on English Learners as it limits access and opportunities to learn. In 2005,
the California Superintendent of Instruction implemented an initiative known as Algebra
for All. The design of the policy and intent of the initiative was to provide all students
more equitable Opportunity-to-Learn (OTL) and to increase achievement rates. This
policy serves to help ESL students, who, before this initiative, may have not had the
opportunity to take Algebra I by the 8
th
grade.
In addition to the Los Angeles Unified School District (LAUSD), 17 large
California school districts were selected for study. They were Anaheim Union High,
Corona-Norco Unified, Desert Sands Unified, Elk Grove Unified, Fresno Unified, Lodi
Unified, Long Beach Unified, Moreno Valley, Mt. Diablo Unified, Riverside Unified,
Sacramento City Unified, San Bernardino City, San Diego Unified, San Francisco
Unified, Santa Ana Unified, Stockton Unified, and Sweetwater Unified. The following
research questions will be addressed:
1. To what extent, if any, have large urban school districts in CA increased ESL
a. access to early algebra between 2004 and 2012?
ALGEBRA FOR ALL 72
2. To what extent, if any, have large urban school districts in CA decreased the
a. gap between ESL and White student access to early algebra between 2004
and 2012?
3. To what extent, if any, have large urban school districts in CA increased ESL
a. success in Algebra I between 2004 and 2012?
4. To what extent, if any, have large urban school districts in CA decreased the gap
a. between ESL and White student Algebra I success between 2004 and
2012?
Method Summary
This study focused on the success scores of White and ESL students before and
after the Algebra for All (2012) initiative in order to determine whether access to Algebra
I increased student achievement. The primary independent treatment used in this study is
the Algebra for All initiative. The primary dependent variables were opportunity-to-learn
based on the percentage of students tested in Algebra I by grade 8 and achievement based
on the mean percentage of White and ESL students who scored “basic and above” on the
Algebra I CST by grade 9.
In order to determine whether the Algebra for All initiative made a significant
impact on ESL student achievement, a quasi-experimental design was used. All data
were collected via the California Department of Education (CDE) website and
downloaded as a single research file. Next, data was entered into an SPSS data file and
analyzed using the Statistical Package for the Social Sciences (SPSS) software.
The English Language Arts enrollment numbers were used as a benchmark to
determine total enrollment; the number of students tested in grade 8 ELA (denominator)
ALGEBRA FOR ALL 73
along with the number of students who tested for Algebra I by grade 8 (numerator) was
used to calculate the percentage of students who had the opportunity to learn Algebra I.
Variables were later added to the SPSS research file. To determine a relationship
between early algebra and success rates, students who took Algebra I by grade 7, 8, and 9
in the years 2004, 2007 and 2012 were examined. Success was determined as a score of
“basic and above” on the Algebra I CST. According to Rosin, Barondess, and Leitchy
(2009) there are two ways to determine success, (1) student participation, and (2) math
success in the course (EdSource, 2009). This study examined both, how OTL increased
overtime through participation rates and how well students performed on CST Algebra I,
grade 9 over time.
Students’ success rates in LAUSD were compared to student success rates in 17
statewide large school districts before (2004) and after (2012) the Algebra for All (2005)
initiative was introduced by the California Superintendent of Instruction.
Quantitative Research Design
Pre-post Retrospective Comparison Group Design. A pre-post retrospective
comparison group design noting the difference in OTL and Algebra I CST scores was
used to analyze the effects of the Algebra for All initiative. Below is the graphic
representation of the retrospective comparison group design. In this design, the X
represents the intervention of the Algebra for All initiative.
Retrospective Measurements Post Intervention Measurements
2004 2012
01, 02 __________ X _________ 01, 02
Figure 2. Non-Equivalent Retrospective Comparison Group Design
ALGEBRA FOR ALL 74
OTL and CST student test scores for the intervention group in 2012 were
compared to the data outcomes of the retrospective comparison group in 2004. This
comparison allows for an analysis of the difference between post and pre-intervention
scores. The two dependent variables (01, 02) were OTL and CST Algebra I success.
Non-equivalent Comparison Group Design. Below is a graphic representation
of the LAUSD group and the 17 comparison districts. The intervention is the
implementation of the Algebra for All (2005) initiative. There are two groups of
dependent variables: the CST success math scores and the OTL scores. Below is a
graphic representation of the non-equivalent comparison group design. In this design, the
X represents the intervention of the Algebra for All initiative for LAUSD in the year
2012.
2004 2012
LAUSD Districts 01, 02 X 01, 02
17 Comparison Districts 01, 02 01, 02
Figure 3. Non-equivalent Comparison Group Design
Dependent variables. Two dependent variables were measured. The first
dependent variable measured Algebra I OTL by grade 8. OTL was determined by the
sum of the number students who took Algebra I by grades 7 and 8 divided by the number
of students who tested in the English Language Arts portion of the CST in grade 8.
The second dependent variable will be success in Algebra I by grade 9. Success
is defined as basic or above on CST.
To compute for success rates in grade 9, the following three groups of
computations were added: (1) the number of students who scored “basic and above” in
Algebra I by grade 7; (2) the number of Algebra I students who scored “basic and
ALGEBRA FOR ALL 75
above,” in grade 8; and (3) the number of Algebra I students who scored “basic and
above,” in grade 9. Then, the number of students who tested in English Language Arts
by grade 9 was divided by the total of the three groups.
All of the computations were done for each year, 2004, 2007, and 2012, to
determine both OTL and success rates and changes over time.
Independent variables. There are three independent variables in this study: (1)
LAUSD versus 17 large urban school districts, (2) White vs. ESL students, and (3)
differential implementation of Algebra for All from 2004 to 2012. LAUSD represents
one district with a large number of ESL learners, and, in this study, was compared to 17
other large districts that also had a large number of ESL learners to determine
differences. District ESL proportions ranged from 28 percent to 80 percent. A total of
14,680 White students took the ELA, CST in 2012 in comparison to a total of 9,717
White students who took Algebra 1 by grade 8. A total of 47,753 EL and RFEP students
took the ELA, CST in 2012 in comparison to a total of 31,251 EL and RFEP student who
took Algebra 1 by grade 8. Finally, to analyze the effects of Algebra for All, data were
collected for the years 2004, 2007, and 2012. Comparison data focused on the years
2004 and 2012 and on the differential effects of Algebra for All in all seventeen districts.
Participants and Setting
The sample consisted of White and ESL students in LAUSD and in 17
comparison districts who took the California Standards-based Test (CST) in Algebra I in
the years 2004, 2007, and 2012. The participants of this study were districts that enrolled
students in one of California’s examinations (CST) in Algebra I during the years 2004 to
2012. To be considered “numerically significant” districts either (1) had a subgroup that
ALGEBRA FOR ALL 76
consisted of at least 50 students with valid test scores who made up at least 15% of total
valid scores, or had (2) 100 students enrolled to test in CST (CDE, 2012; Edcode 5052).
The districts selected differed in grade level enrollment practices for grades 7, 8 and 9.
Table 4 provides enrollment data for LAUSD and 17 urban school districts used
in this study. A condition for district selection was a grade 7 to 11 enrollment of more
than 10,000 students and an ESL percentage greater than 28.
Table 4
17 Urban School District percent and number of ELs
District Name Dist_Enroll ESLpercent N_ESL
Anaheim Union High 27495.4162 .5395 14835.0268
Corona-Norco Unified 17786.6292 .3090 5496.4172
Desert Sands Unified 10280.1377 .4151 4267.7257
Elk Grove Unified 22565.2684 .3034 6847.0434
Fresno Unified 20710.1403 .3551 7354.0536
Lodi Unified 10341.8687 .3802 3931.8253
Long Beach Unified 34117.7377 .3716 12679.8010
Los Angeles Unified 216792.2356 .5092 110384.8730
Moreno Valley Unified 13416.5444 .4092 5490.4628
Mt. Diablo Unified 12147.6422 .3118 3787.4613
Riverside Unified 16109.1450 .2878 4635.4887
Sacramento City Unified 16213.0885 .3485 5650.0728
San Bernardino City
Unified
20875.1082 .4487 9365.9652
San Diego Unified 39243.8337 .4267 16743.4357
San Francisco Unified 17437.3817 .4783 8340.3620
Santa Ana Unified 19786.7853 .7992 15813.2096
Stockton Unified 13250.5115 .4159 5511.3145
Sweetwater Union High 29860.2198 .5074 15151.6535
Total 31023.8719 .4231 14238.1218
LAUSD. The city of Los Angeles founded in 1853 is situated in Southern
California and is the most populous city in California and the second most populous city
in the United States. It is considered to be one of the most ethnically diverse cities in the
U.S. The United States Census (2010) records show a population of 9,818,605 in Los
Angeles County, and 4,936,599 of these residents are White and 4,687,889 are Hispanic
ALGEBRA FOR ALL 77
or Latino (US Census). Los Angeles is the largest city in Los Angeles County. LAUSD
is the second largest district in the nation and LAUSD enrolls more than 640,000 students
in kindergarten through 12
th
grade. There are over 900 traditional schools and 187 public
charter schools within the LAUSD boundaries that extend over 720 miles. LAUSD
includes the mega-city of Los Angeles, 31 smaller municipalities, and several
unincorporated sections of Southern California.
The total student population of LAUSD in 2009-2010 was 677,538, of which
497,583 were Hispanic students. The percentage of reclassified students in 2010-2011
was 12.75. The total English Language learner student count in 2010-2011 was 181,373,
and 169,541 of these students spoke Spanish. The other 3,737 EL students spoke the
following languages: Armenian (2,075), Cantonese (732), Korean (1,939), Farsi (586),
Tagalog (1,641), Russian (538), and Vietnamese (584). With this in mind, there are
about 92 languages other than English spoken in LAUSD schools. Primary languages are
Spanish (93.4% of English Learners), Korean (1.1%), and Armenian (1.1%). Tagalog,
Cantonese, Arabic, Vietnamese and Russian, each account for less than 1% of students
who are learning to speak English proficiently. Total student enrollment as of October
2011 was 911,413 (which includes Adult Ed.), and 144,412 of these students were in
senior high school grades 9 through12 (LAUSD).
LAUSD’s mission is focused on the rights of LAUSD youth to gain an education
that prepares them for success. Their mission statement is “LAUSD will provide high
quality instruction coherent and rigorous curriculum in every classroom to facilitate
student learning and achievement.” Their vision is “Every LAUSD student will receive
ALGEBRA FOR ALL 78
an education in a safe, caring environment and every student will be college-prepared and
career-ready” (LAUSD, 2012).
17 statewide districts. Data collected for Table 4 were created using a data
archive credited to Levy (2011). Table 5 shows the demographics for the 18 California
districts used in this study. The ESL student population ranges from 29 percent in
Riverside Unified School District to 80 percent in Santa Ana Unified School District.
Column 2 shows the percentage of students whose parents completed various levels of
education. The items are coded as follows: (1) not a high school graduate, (2) high
school graduate, (3) some college, (4) college graduate, and (5) graduate school
(California Department of Education, 2012). The average student’s parent education
ranged from a low of 1.7 percent in Santa Ana Unified School District who to 3.0 in Mt.
Diablo Unified School District. LAUSD has an average education of 2.3. Column 3
shows the percentage of students whose parent did not have a high school degree. This
index ranged from 11 percent in Elk Grove Unified School District to 57 percent in Santa
Ana Unified School District. Thirty-four percent of the parents in LAUSD did not have a
high school degree. Column 4 shows the percent of students who are socioeconomically
disadvantaged, as measured by participation in the federal Free or Reduced-Price Lunch
Program. The percentage range of students who participate in the Free or Reduced-Price
Lunch Program ranges from 44 percent in Mt. Diablo to 90 percent in Fresno Unified
School District. LAUSD has a FRLP rate of 78 percent. The overall average is 67
percent.
ALGEBRA FOR ALL 79
Table 5
District Demographics
District ESL percent Aver_Educ HS_only FRLP
Anaheim Union High .5395 2.5945 26.1818 61.5909
Corona-Norco Unified .3090 2.8012 19.1765 46.7059
Desert Sands Unified .4151 2.4594 26.7429 66.4857
Elk Grove Unified .3034 2.9830 10.5522 54.8806
Fresno Unified .3551 2.3123 29.4623 89.9057
Lodi Unified .3802 2.6019 20.4074 62.6852
Long Beach Unified .3716 2.7453 21.5495 68.0769
Los Angeles Unified .5092 2.2951 34.2279 78.0106
Moreno Valley Unified .4092 2.4741 20.5897 78.1795
Mt. Diablo Unified .3118 3.0670 15.4821 43.5714
Riverside Unified .2878 2.4406 22.4082 61.0612
Sacramento City Unified .3485 2.6736 20.9767 71.1163
San Bernardino City Unified .4487 2.1148 36.3200 83.5067
San Diego Unified .4267 2.7711 18.4954 66.7844
San Francisco Unified .4783 2.6261 14.2589 60.3393
Santa Ana Unified .7992 1.7293 56.7705 80.6721
Stockton Unified .4159 2.2715 29.3051 83.6441
Sweetwater Union High .5074 2.7071 19.8710 53.4516
Total .4231 2.5371 24.5988 67.2593
Instrumentation
Achievement. The data for this study was collected at different points in time in
order to determine differences after the Algebra for All initiative was implemented in
year 2005. The study was based on the years 2004 to 2012. Achievement was measured
through the California Standardized Tests (CST) in Algebra I. Students who take this test
receive feedback in the form of both raw and scale scores. Scale scores are used to
balance off test scores across multiple versions of different tests, and they range from 150
to 600 for each test and grade level (CDE, 2010). Because scale scores are not scaled
vertically across grade levels or subjects, they may not be used to measure success across
ALGEBRA FOR ALL 80
grade levels (CDE, 2010). To address this issue, scaled scores are categorized into five
performance bands labeled Far Below Basic (FBB), Below Basic (BB), Basic (B),
Proficient (P), and Advanced (A) by the CDE (2010). The minimum scale scored
required for students to earn scores in the basic range of 300 is the same measurement
used across all tests and grade levels (CDE, 2010). This alignment allows the Basic
category cut-off to act as an appropriate indicator of success for this study, as those who
score below this marker are judged as having “little or no command” of the subject tested
(William et al., 2011).
ALGEBRA FOR ALL 81
Chapter 4: Results
To purpose of this study was to assess the impact that the Algebra for All (2005)
initiative had on ESL students’ opportunity to learn Algebra I by grade 8 and on Algebra
I success rates. In addition, this study examined large districts in California to determine
which districts still used tracking and which districts did not, as determined by how many
students were tested in Algebra I by grade 8.
There were three independent variables: (A) Los Angeles Unified School District
versus 17 large districts, (B) White versus ESL students, and (C) differential
implementation of Algebra for All at the district level. In addition, two dependent
variables were incorporated in the design: (A) the number of students who took the
Algebra I test in grade 8 (OTL), and (B) the percentage of students who scored “basic
and above” on the CST in Algebra I by grade 9. The Los Angeles Unified School
District and a target group of 17 large California districts were used for comparison
purposes. This research investigation sampled CST Algebra I data from 2004, 2007, and
2012.
Results for Opportunity to Learn
As shown in Figure 4 the ESL OTL increased from 2004 to 2012 in all but one of
the 18 large school districts. The data from Figure 4 show an increased Algebra I OTL
by grade 8 in 16 of the 18 large districts of 20 percent or more. The most significant
increase was in the Mt. Diablo Unified School District (.70). In 2004, 16 percent of the
students took the Algebra I test by grade 8, and, in 2012, 86 percent of students took the
test; a statistically significant increase of 70 percent. The second largest increase of the
ESL OTL was in the Stockton Unified School District (.69). In 2004, 25 percent of
ALGEBRA FOR ALL 82
students had access to early algebra and, by 2012, 94 percent did, a statistical increase of
69 percent. The third largest increase was the Anaheim Union High School District which
saw an increase of 68%. In 2004, only 11 percent of students had access to early math
and, by 2012, 79 percent did.
Figure 4. English as a Second Language students OTL scores per the 18 districts.
Two of the smallest, yet positive, increases were found in Desert Sands Unified
School District, which had an increase of 8 points (from 26 in 2004 to 34 points in 2012)
and Elk Grove Unified School District, which had an increase of 8 points (from 38 in
2004 to 46 in 2012).
Santa Ana Unified, which had a population of 80 percent ESL students, decreased
student OTL for Algebra I by 14 percent. Thus, EL students in Santa Ana were least
likely to take Algebra I in comparison to the other 17 districts.
0
20
40
60
80
100
Percent
of
students
tested
in
Algebra
I,
Grade
8
ESL
OTL
2012
2004
ALGEBRA FOR ALL 83
Figure 5. Statewide White student Opportunity -to-Learn data for 16 large districts.
The data from Figure 5 shows an increasing trend for White student Algebra I
OTL by grade 8 in each of the 16 large districts. Statewide, the White OTL increased
from 2004 to 2012 by a mean score of 41 percent. The largest increase for White OTL
was in the Anaheim Union High School District (16 points in 2004 to 84 points by 2012),
which had a statistical increase of 68 percent. The second largest increase for White OTL
was in the Stockton Unified School District (29 in 2004 to 95 in 2012), which had a
statistical increase of 66 percent. The third largest was found in Lodi Unified School
District (33 in 2004 to 85 by 2012), which had a statistical increase of 52 percent.
0
10
20
30
40
50
60
70
80
90
100
Percent
of
students
tested
in
Algebra
I,
Grade
8
White
OTL
2012
2004
ALGEBRA FOR ALL 84
Figure 6. Non-LAUSD, Statewide White and Statewide ESL comparison data.
The upper line in Figure 6 shows the statewide mean score for White students (43
in 2004, 65 in 2007, and 84 in 2012). Opportunity to Learn Algebra I in grade 8
increased by 41 percent from 2004 to 2012. The statewide mean score for ESL students
increased by 48 percent (28 in 2004, 59 in 2007, and 77 in 2012). The ESL and White
student’s OTL gap decreased by 8%.
The Non-LAUSD findings from Figure 6 indicate that the gap between ESL and
White students’ opportunity to learn Algebra I by grade 8 is closing, as each sub-group
increased Algebra I OTL. The fact that more ESL students are taking Algebra I by grade
8 is a positive trend that has continued since the year 2004.
0
20
40
60
80
100
2004
2007
2012
Percent
of
students
tested
in
Algebra
I
Grade
8
Non-‐LAUSD
White
and
ESL
OTL
GAP
Statewide
White
Statewide
ESL
ALGEBRA FOR ALL 85
Figure 7. LAUSD, White and ESL comparison data.
Figure 7 shows LAUSD White students in comparison to LAUSD ESL students.
The findings show that both groups increased their participation in Algebra I OTL by
grade 8. LAUSD White students rose from 53 percent in 2004 to 73 percent in 2012, and
LAUSD ESL students rose from 45 percent in 2004 to 72 in 2012. Moreover, in 2012,
LAUSD had closed the gap to nearly zero between ESL and White students.
Figure 8. LAUSD ESL and Statewide ESL Opportunity to Learn
0
10
20
30
40
50
60
70
80
90
100
2004
2007
2013
Median
Percent
LAUSD,
White
and
ESL
OTL
GAP
LAUSD
White
LAUSD
ESL
0
10
20
30
40
50
60
70
80
90
100
2004
2007
2012
Mean
percentages
LAUSD
&
Statewide
ESL
OTL
Statewide
ESL
LAUSD
ESL
ALGEBRA FOR ALL 86
Figure 8 shows ESL students statewide compared to those in LAUSD. In 2012,
72% of LAUSD ESL students took the Algebra I test by grade 8 and 76% of ESL
students statewide took the Algebra I test by grade 8. Thus, it can be concluded that, in
2012, ESL students outside of LAUSD were 4% more likely to take the Algebra I test by
grade 8. This is in contrast to 2004 when ESL students inside LAUSD were 17% more
likely to take the Algebra I test by grade 8.
Figure 9. LAUSD White and Statewide White OTL
Figure 9 shows LAUSD White students compared to White students statewide
who were enrolled and had test scores in Algebra I by grade 8. Both groups of White
students increased their opportunity to take Algebra I by grade 8 over time. By 2012,
73% of the students took the Algebra I test in grade 8 in LAUSD and 84% of White
students took test in statewide. Thus, it can be concluded that White students outside of
LAUSD were 11% more likely to take Algebra I in the eighth grade.
0
20
40
60
80
100
2004
2007
2012
Median
percent
of
students
who
tested
Algebra
I,
grade
8
LAUSD
White
&
Statewide
White
OTL
Statewide
White
LAUSD
White
ALGEBRA FOR ALL 87
Table 6
The Percent of Students per District Tested for Algebra I in grade 8
Table 6 shows that the percent of ESL students who were enrolled and took the
Algebra I test in grade 8 increased in all districts, except for Santa Ana Unified School
District. The greatest changes were made in Mt. Diablo, Stockton Unified, Anaheim
Union High, Moreno Valley, San Francisco, and San Bernardino Unified School Districts
which all had increases of OTL at or above 60%. The lowest impact was seen in Santa
Ana Unified which had a decrease of -14, followed by Desert Sands and Elk Grove
Unified which saw an increase of 8 percent each.
2004-2012 ESL OTL Change: ESL Subgroup
2004 2012 Change
Mt. Diablo Unified 16 86 70
Stockton Unified 25 94 69
Anaheim Union High 11 79 68
Moreno Valley 28 92 64
San Francisco Unified 35 96 61
San Bernardino City
Unified
22 82 60
Lodi Unified 20 77 57
Sweetwater Unified 24 70 46
Corona-Norco Unified 45 84 39
Long Beach Unified 23 59 36
Sacramento Unified 35 65 30
LAUSD 45 72 27
Riverside 54 76 22
Fresno Unified 38 57 19
San Diego Unified 66 81 15
Desert Sands Unified 26 34 8
Elk Grove Unified 38 46 8
Santa Ana Unified 45 31 -14
ALGEBRA FOR ALL 88
Table 7
Opportunity-to-Learn changes from the year 2004 to 2012
2004-2012 OTL CHANGE
2004-2012
White Δ
2004-2012
ESL Δ
Mt. Diablo Unified 47 70
Stockton Unified 66 69
Anaheim Union High 68 68
Moreno Valley Unified 45 64
San Francisco Unified 47 61
San Bernardino City
Unified
44 60
Lodi Unified 52 57
Sweetwater Unified 32 46
Corona-Norco Unified 18 39
Long Beach Unified 40 36
Sacramento City Unified 28 30
LAUSD 20 27
Riverside 17 22
Fresno Unified 7 19
San Diego Unified 8 15
Elk Grove Unified 23 8
Desert Sands Unified n/a 8
Santa Ana Unified n/a -14
The data in Table 7 show the change in opportunity for White and ESL students
to take the Algebra I test from the years 2004 to 2012. The important information from
these data is that for all but 2 districts, Long Beach Unified and Elk Grove Unified
School District, NCLB led to more equitable changes in OTL in the ESL subgroup as
compared to the White subgroup, which is an intended consequence of NCLB. For seven
districts (Mt. Diablo, Stockton, Anaheim Union, Moreno Valley, San Francisco, San
Bernardino City, and Lodi Unified School Districts), the amount of change in OTL for
the ESL subgroups exceeded .50, a practically significant change.
ALGEBRA FOR ALL 89
Table 8
White and ESL student OTL Rates 2012
Table 8 shows the statewide rates for both White and ESL student OTL. The
higher the rate, the higher the likelihood that ESL students had access to Algebra I by
grade 8 in 2012. For example, ESL students in San Francisco Unified were most likely to
have OTL in 2012 at a rate of 96%, while students in Santa Ana Unified were least likely
to have the OTL Algebra I in 2012 at a rate of 31 percent. In addition to San Francisco
Unified, Stockton and Moreno Valley provided ESL students OTL Algebra I at a rate of
90 percent or more. Mt. Diablo, Corona-Norco, San Bernardino City and San Diego
Unified provided students OTL Algebra I at a rate of 80 percent or more. However, Elk
Grove and Santa Ana Unified School Districts provided ESL students the least amount of
2012 OTL Rates
White 2012 OTL Rates ESL 2012 OTL Rates
San Francisco Unified 93 96
Stockton Unified 95 94
Moreno Valley Unified 88 92
Mt. Diablo Unified 81 86
Corona-Norco Unified 90 84
San Bernardino City
Unified
85 82
San Diego Unified 90 81
Anaheim Union High 84 79
Lodi Unified 85 77
Riverside 91 76
LAUSD 73 72
Sweetwater Unified 74 70
Sacramento City Unified 72 65
Long Beach Unified 78 59
Fresno Unified 70 57
Elk Grove Unified 59 46
Desert Sands n/a 34
Santa Ana Unified n/a 31
ALGEBRA FOR ALL 90
OTL Algebra I at a rate less than 50 percent. Overall, fifteen out of 18 large districts
provided students OTL Algebra I at a rate of 50 percent or more.
Table 9
The Opportunity to Learn GAP between White and ESL students 2012-2004
OTL GAP (White – ESL)
2004
White - ESL
2012
White - ESL
2012-2004
GAP Reduction
Mt. Diablo Unified 18 -5 23
Corona-Norco
Unified
27 6 21
San Bernardino City
Unified
19 3 16
Sweetwater Unified 18 4 15
Long Beach Unified 15 1 14
San Francisco
Unified
11 -3 14
Fresno Unified 25 13 12
Moreno Valley 5 -4 9
LAUSD 8 1 7
San Diego Unified 16 9 7
Lodi Unified 13 7 6
Riverside 20 15 5
Stockton Unified 4 1 3
Sacramento Unified 9 7 2
Anaheim Union
High
5 5 0
Elk Grove Unified -1 13 -14
Table 9 shows the changes in the OTL gap between White and ESL students. The
last column (2012-2004) shows the changes in OTL between the years 2004 and 2012
and highlights districts that have, over time, significantly reduced the OTL gap. The gap
was computed by subtracting the OTL change percentages for ESL students from those
of White students to determine the existing OTL gap. The most significant results were
found in Mt. Diablo Unified, which had a gap reduction of 23 percent and Corona-Norco
Unified School District, which had a gap reduction of 21 percent.
ALGEBRA FOR ALL 91
The third column shows the gap reduction for each of the 16 large districts. The
larger the OTL gap percentages in the last column, the better the corresponding district
did in reducing the OTL gap for ESL learners. Seven districts that decreased the gap by
more than 10% were Mt. Diablo (.23), Corona-Norco (.21), San Bernardino City (.16),
Sweetwater (.15), Long Beach (.14), San Francisco (.14), and Fresno Unified School
District (.12). Elk Grove, Fresno and Riverside Unified School Districts left the OTL gap
greater than 10%. Overall, the ESL OTL gap was decreased in all but Anaheim Unified
School District.
Results for Algebra I Success by Grade 9
Figure 10. Percent of ESL students who scored “Basic or Above” Algebra I, grade 9.
The data from Figure 10 show a positive success trend for ESL students in each of
the 18 large districts statewide. Statewide, the ESL success in math by grade 9
dramatically increased between 2004 and 2012. The largest increase for ESL success in
terms of percentages was in the Anaheim Union High School District (from 23
percentage points in 2004 to 83 points by 2012), which had a statistical increase of 60
0
10
20
30
40
50
60
70
80
90
100
Percent
of
studets
"basic
or
above"
Algebra
I,
Grade
9
ESL
Success
Grade
9
2012
2004
ALGEBRA FOR ALL 92
percent. The second largest increase for ESL success was in the Mt. Diablo Unified
School District (0 in 2004 to 54 in 2012), which had a statistical increase of 54 percent.
The third largest increase for ESL student success was in Riverside Unified School
District (34 in 2004 and 80 in 2012), which had a statistical increase of 46 percent.
Figure 11. Percent of statewide White students “Basic and Above” Algebra I, Grade 9.
Figure 11 shows the changes in success rates for White students. As was the case
with ESL students, Anaheim Union High and Mount Diablo Unified had the greatest
amount of change.
0
10
20
30
40
50
60
70
80
90
100
Percent
of
students
"basic
or
above"
Algebra
I,
Grade
9
White
Grade
9
Success
2012
2004
ALGEBRA FOR ALL 93
Figure 12. Mean percent White and ESL “Basic and Above” Algebra I Grade 9.
The upper line in Figure 12 shows the mean success score for statewide ESL
students (.30 in 2004, .50 in 2007 and .65 in 2012). ESL success in Algebra I grade 9
increased by 35 percent. The statewide mean score for White students was .26 in 2004,
.35 in 2007 and .75 in 2012. White success scores increased by 49 percent. The gap
between ESL and White students’ success decreased to 10 percent between 2004 and
2012, which was a practically significant change.
The Non-LAUSD findings from Figure 12 show that the Algebra I grade 9
success gap between ESL and White students increased. It increased because White
students’ success scores increased at a faster rate than those of ESL students after 2007.
By 2012, White students’ mean success increased by 49 percent in just 4 years while ESL
students’ mean success increased 30 percent in 4 years.
0
20
40
60
80
100
2004
2007
2012
Mean
Percent
Algebra
I,
Grade
9
Non-‐LAUSD
White
and
ESL
Grade
9
Success
Statewide
White
Statewide
ESL
ALGEBRA FOR ALL 94
Figure 13. Mean Percent LAUSD White and ESL Grade 9 Success Algebra I
Figure 13 shows LAUSD White students’ mean percent success scores (34, 33,
73) in comparison to LAUSD ESL students’ mean percent success scores in Algebra I,
grade 9 (27, 44, 55). As was the case statewide, White students had the greater amount
of change, and, thus, the gap between White and ESL students’ success increased. In
2012, LAUSD White students outscored LAUSD ESL students by 18% (73% versus
55%).
0
10
20
30
40
50
60
70
80
2004
2007
2012
Median
Percent
LAUSD
White
and
ESL
Grade
9
Success
LAUSD
White
LAUSD
ESL
ALGEBRA FOR ALL 95
Figure 14. Mean Percent LAUSD and Statewide ESL success Algebra I, Grade 9.
The top line in Figure 14 shows LAUSD ESL students’ mean percent success (.27
in 2004, .44 in 2007, and .55 in 2012) and the bottom line shows the statewide ESL
students’ mean percent (.30 in 2004, .50 in 2007, and .65, in 2012). ESL students
statewide scored higher in terms of success in comparison to LAUSD. In 2012, sixty-five
percent of ESL students statewide were successful on the Algebra I CST test in grade 9
compared to fifty-five percent of LAUSD ESL students. The gap between statewide ESL
students’ success and that of LAUSD ESL students is 10 percent. In 2004, ESL students
outside LAUSD were 3% more likely to be successful on Algebra I by grade 9 than
statewide ESL students. Thus, the gap between LAUSD’s ESL students and ESL
students statewide increased more than three fold.
0
20
40
60
80
100
2004
2007
2012
Median
Percentages
LAUSD
ESL
and
Statewide
ESL
Grade
9
Success
Statewide
ESL
LAUSD
ESL
ALGEBRA FOR ALL 96
Figure 15. Percent of LAUSD and Statewide White student success Algebra I, Grade 9
Figure 15 shows LAUSD White students who were successful on the Algebra I
CST test by grade 9. Statewide, White students had a mean score of .34 in 2004, .33 in
2007, and .73 in 2012, and LAUSD White students had a mean score of .26 in 2004, .35
in 2007, and .75 in 2012. In contrast to the higher scores statewide for ESL students,
LAUSD White students outscored White students statewide in 2012 by two percent.
Table 10
The ESL Success 2004 to 2012 Percent Changes
2004-2012 ESL Success Change Data: ESL subgroup
2004 2012 Change
Anaheim Union High 23 83 60
Mt. Diablo Unified 0 54 54
Riverside 34 80 46
Sweetwater 25 71 46
Corona-Norco
Unified
31 67 36
Moreno Valley 25 60 35
San Francisco
Unified
41 75 34
Desert Sands Unified 24 57 33
San Diego Unified 41 73 32
0
20
40
60
80
100
2004
2007
2012
Median
Percentages
LAUSD
White
and
Statewide
White
Grade
9
Success
Statewide
White
LAUSD
White
ALGEBRA FOR ALL 97
Table 10 shows that the change in ESL success rates in each large district
increased between the years 2004 and 2012. The greatest impact was in the Anaheim
Union High School District, which had an increased change of 60 percent. The lowest
impact, although a positive one, was found in the Elk Grove Unified School District,
which had an increase of 8 percent. Seventeen out of the 18 large districts improved in
success percentages by over 20 percent, a change of great practical significance. Overall,
the mean success rate change was 32 percent.
Table 11
White and ESL Grade 9 Success Changes from 2004-2012
2004 – 2012 Grade 9 Success Change
2004-2012
White Δ
2004-2012
ESL Δ
Anaheim Union High 61 60
Mt. Diablo Unified 71 54
Riverside Unified 36 46
Sweetwater Unified 52 46
Corona-Norco Unified 51 36
Moreno Valley District 47 35
San Francisco Unified 55 34
Desert Sands Unified n/a 33
San Diego Unified 34 32
Santa Ana Unified n/a 32
San Bernardino City
Unified
49 31
LAUSD 39 28
Table 10, continued
Santa Ana Unified 33 65 32
San Bernardino City
Unified
26 57 31
LAUSD 27 55 28
Lodi Unified 28 55 28
Long Beach Unified 30 58 28
Stockton Unified 28 54 26
Fresno Unified 36 61 25
Sacramento Unified 45 67 22
Elk Grove Unified 57 65 8
ALGEBRA FOR ALL 98
Table 11, continued
Lodi Unified 53 28
Long Beach Unified 52 28
Stockton Unified 19 26
Fresno Unified 29 25
Sacramento Unified 42 22
Elk Grove Unified 48 8
Table 11 shows the changes in Algebra I success percentages for White and ESL
students in 2012. The important information in this data is that for all but two districts,
Riverside and Stockton Unified School District, ESL student success change was smaller
than that of White students. Nonetheless, ESL student success change was substantial in
all but Elk Grove Unified, ranging from .22 in Sacramento to .60 percent in Anaheim
Union High School District.
Table 12
Grade 9 Statewide White and ESL student success rates 2012
2012 Grade 9 Success Rates
White 2012 Rates ESL 2012 Rates
Anaheim Union High 77 83
Riverside 76 80
San Francisco Unified 75 75
San Diego Unified 88 73
Sweetwater Unified 82 71
Corona-Norco Unified 84 67
Sacramento Unified 70 67
Elk Grove Unified 77 65
Santa Ana Unified n/a 65
Fresno Unified 71 61
Moreno Valley 67 60
Long Beach Unified 78 58
Desert Sands Unified n/a 57
San Bernardino City Unified 65 57
LAUSD 73 55
Lodi Unified 70 55
Mt. Diablo Unified 71 54
Stockton Unified 38 54
ALGEBRA FOR ALL 99
Table 12 shows both the statewide White and ESL student 2012 success rates on
Algebra I CST by grade 9. The higher the rates, the higher the likelihood that ESL
students had of being successful on Algebra I in grade 9 in 2012. For example, ESL
students in the Anaheim Union High School District were most likely to be successful in
2012, and students in Stockton Unified School District were least likely to be successful
in Algebra I in grade 9. The top eight school districts were Anaheim (.83), Riverside
(.80), San Francisco (.75), San Diego (.73), and Sweetwater (.71) Corona-Norco (.67),
Sacramento (.67) and Elk Grove (.65) High School Districts, while the bottom eight
performing school districts in terms of student success rates were: Moreno Valley (.60),
Long Beach (.58), Desert Sands (.57), San Bernardino City (.57), LAUSD (.55), Lodi
(.55), Mt. Diablo (.54), and Stockton (.54), school districts. The overall mean success
rate was 62 percent.
Table 13
Grade 9 Success Gap results ESL students from 2004 to 2012
Grade 9 Success (White – ESL)
2004
White - ESL
2012
White - ESL
2012-2004
GAP Change
Elk Grove Unified -28 12 40
Lodi Unified -11 15 26
Long Beach Unified -4 20 24
Sacramento Unified -17 3 20
Mt. Diablo Unified 0 17 17
Corona-Norco
Unified
2 17 15
Moreno Valley -5 7 12
LAUSD 7 18 11
San Bernardino City
Unified
-1 8 9
Fresno Unified 6 10 4
Sweetwater Unified 7 11 4
San Diego Unified 13 15 2
ALGEBRA FOR ALL 100
Table 13, continued
Anaheim Union
High
-7 -6 1
Stockton Unified -9 -16 -7
Riverside Unified 6 -4 -10
San Francisco
Unified
-21 0 -21
The last column in Table13 shows the changes in Algebra I success in grade 9,
and it highlights districts that have significantly reduced the Algebra I success gap. The
gap was computed by using the success change percentages from Table 12 for White
students and subtracting that for ESL students to determine the existing success gap. The
smaller the success gap percent is in the last column, the better the corresponding districts
did in reducing the success gap for ESL Learners. The most significant increases in the
success gap were found in Elk Grove, which had an increase of 40 percent; this was a
practically significant change. Eight districts that increased the success gap by more than
10% were Elk Grove, Lodi, Long Beach, Sacramento, Corona-Norco, Mt. Diablo,
Moreno Valley, and the LAUSD Unified School District (as seen in the last column).
While the trend was towards an increased White-ESL gap, three districts decreased the
size of the gap: Stockton, Riverside and San Francisco.
ALGEBRA FOR ALL 101
Chapter 5: Summary and Discussion
This dissertation was designed to examine the relationship between the Algebra
for All (2005) initiative and English as Second Language learners’ (ESL) opportunity to
learn (OTL) Algebra I. In order to determine the effect of the Algebra for All initiative,
Algebra I CST data before and after the Algebra for All (2005) initiative were used.
Students who tested in Algebra I by grade 8 were determined to have OTL, as algebra by
grade 8 is considered an on-time and appropriate pace. The rate of success was
determined through student scores from the Algebra I, CST test in grade 9. Students with
“basic and above” scores were considered to be successful. Data from the Los Angeles
Unified School District and other large California districts were used in this study.
This study focused on 18 large California school districts because California has a
large percentage of English Learners. In this study, the total district student population
among the 18 urban school districts was 558,429. The total sample size of English
Learners consisted of 256,286; the mean EL sample size was 42 percent. As Table 3
shows, of the total EL sample, 25% represents EL students in high school (Levy, 2011).
The problem addressed in this study was related to the achievement gap,
specifically the math achievement gap between White students and English Learner
students since EL students drop out and do not graduate or become college-ready at
alarming rates. Although PSAA (1999), NCLB (2001) and recent legislation such as
Algebra for All acknowledge the need for high expectations, high quality education and
access to equal opportunities for learning, disparities continue to exist; one such disparity
relates to the extent to which large districts in California provide greater OTL and success
in Algebra I.
ALGEBRA FOR ALL 102
The purpose of this study was to identify which statewide districts, if any,
increased ESL OTL Algebra I by grade 8 and which statewide districts, if any, closed the
gap between White and ESL students by increasing ESL student Algebra I success
between the years 2004 and 2012.
The following research questions were addressed:
1. To what extent, if any, have large urban school districts in CA increased ESL
access to early algebra between 2004 and 2012?
2. To what extent, if any, have large urban school districts in CA decreased the gap
between ESL and White student access to early algebra between 2004 and 2012?
3. To what extent, if any, have large urban school districts in CA increased ESL
success in Algebra I between 2004 and 2012?
4. To what extent, if any, have large urban school districts in CA decreased the gap
between ESL and White student Algebra I success between 2004 and 2012?
Opportunity-to-Learn
In regards to Research Question 1: To what extent, if any, have large urban
school districts in CA increased ESL access to early algebra between 2004 and 2012?
Opportunity-to-Learn. California large urban school districts increased White
and ESL students’ OTL to Algebra I by grade 9 by an average of 48 percent. Criteria for
practical significance is (10%). In all but one of the 18 large districts in California, Santa
Ana Unified ESL student OTL was increased. Important to note is that Santa Ana
Unified School District is composed of 80 percent ESL students.
Mount Diablo, on the other hand, with a population of 31 percent ESL students
showed the greatest change in student Algebra I OTL of 70 percent. In addition to Mount
ALGEBRA FOR ALL 103
Diablo, Stockton, with a population of 42 percent ESL, students increased their ESL
student OTL by 69 percent and Anaheim Union High increased OTL by 68 percent.
Desert Sands, Elk Grove, and Santa Ana Unified School Districts had changes of 8, 8,
-14 percent, respectively.
Overall, seventeen of the 18 large urban school districts in this study improved
ESL Algebra I OTL by grade 8 and had changes ranging from 8 to 70 percent. Two
districts increased OTL by 8 percent, eight districts improved by 15 to 46 percent, and
seven districts increased OTL by 57 to 70 percent; Santa Ana Unified School District was
the only district with a decrease in OTL from 45 to 31 percent, a -14 percent change.
In regards to Question 2: To what extent, if any, have large urban school
districts in CA decreased the gap between ESL and White student access to early algebra
between 2004 and 2012?
Opportunity-to-Learn Gap. In regards to the OTL Algebra I gap between ESL
and White students in California, large districts decreased the OTL gap by 8 percent from
2004 to 2012. The Mt. Diablo School District had the highest gap reduction of 23
percent followed by six districts with a gap reduction of 12 percent or more: Corona-
Norco (.21), San Bernardino City (.16) and Sweetwater (.15), Long Beach (.14), San
Francisco (.14) and Fresno Unified School District (.12). There were nine districts that
had an ESL OTL gap at less than 10%: Moreno Valley (9), Desert Sands Unified (8),
LAUSD (7), San Diego (7), Lodi Unified (6), Riverside Unified (5), Stockton Unified
(3), Sacramento (2) and Anaheim Union High School District (1).
Within the ESL subgroup data, although seven statewide districts had the highest
impact in ESL OTL changes of > 80%, these changes in increased access to Algebra
ALGEBRA FOR ALL 104
alone did not contribute to a gap reduction. For example, the districts with the highest
ESL subgroup success changes were Anaheim Union High (.60), Mt. Diablo Unified
(.54), Riverside Unified (.46), Corona-Norco Unified (.36), and Moreno Valley Unified
(.35). Out of those 5 districts, Mt. Diablo had a 17 percent gap reduction, Corona-Norco
had a 15 percent gap reduction, Moreno Valley had a gap reduction of 12 percent and
Anaheim Union had a gap reduction of only 1 percent. On the other hand, Riverside
Unified did not reduce the gap and, instead, increased the gap by 10%. The reason for
this mixed message in a district which experienced an increase in ESL success in Algebra
I changes yet did not reduce the gap is that, while the district increased ESL Algebra I
success, White student also had increased Algebra I success rates in grade 9, thereby not
reducing the gap between White and ESL students. White students take advantage of
what NCLB has to offer, and they are more likely to be better prepared for Algebra I than
are ESL students (EdSource, 2011).
In all, seven districts decreased the ESL OTL gap by more than 10 percent while
Elk Grove, Fresno and Riverside Unified School Districts left the OTL gap greater than
10%. Elk Grove is one district in particular that bucked the decreased tracking trend with
a -14 gap reduction. In conclusion, out of 14,238 ESL students (42 percent) in the
statewide districts, the mean OTL was 70 percent in 2012 in comparison to 33 percent in
2004. The data represent a gap reduction of 37 percent. Overall, within the 17 districts,
the White and ESL gap, all together, the LAUSD and Statewide gap increased more than
threefold. Notwithstanding, it may be said that LAUSD closed the gap to nearly zero
within and between the district’s ESL and White students as compared to the other 17
districts statewide.
ALGEBRA FOR ALL 105
In order to see in which districts, if any, and to what extent ESL students are
tracked, the evidence showed the difference between White and ESL students OTL
Algebra I in 2007 grade 8. Further, the evidence showed the extent to which each of
three districts (Fresno, Riverside, and Elk Grove Unified) tracked students in comparison
to the other districts as per the gap percentage. Fresno, Riverside, and Elk Grove showed
a gap of 13, 15, and 13 percent, respectively, which showed an increase in the gap of over
10 percent. In comparison, the other districts showed a gap reduction of less than 10%.
Discussion of OTL findings. The problem this study examined was the lack of
ESL learners’ OTL Algebra I due to tracking practices. First, tracking practices (aka,
unequal learning opportunities) help to create and perpetuate differences in achievement
and participation (Oakes, 1990). Second, differential opportunities either push a
particular group of students towards higher achievement or others towards a lower track
of achievement (Oakes, 1990).
According to Oakes (2000), minority students and inner-city students have fewer
opportunities to learn math. One factor for this is schools’ judging low-income families
and minority students as having low ability when, in fact, many of these students suffer
from being in classrooms that offer less (Oakes, 2000). The use of ability tracking in
math and science stems from the widespread belief that, due to intellectual differences,
ESL students need to be taught in separate classes. Oakes’ findings suggest that tracking
decreases opportunities to learn because low-ability tracking does not adequately prepare
students with a strong foundation in math concepts that will be needed in future math
classes (Oakes, 2000) and that, in it of itself, becomes a defeating situation. Also, once a
student is on a low-ability level or slow-paced tracking pathway, Darling-Hammond
ALGEBRA FOR ALL 106
(2007) stated students are more likely to work at low cognitive levels on test oriented
tasks, are rarely given opportunities to construct and solve math problems (high cognitive
thinking skills) or have opportunities to talk because most of the instruction is geared to
rote.
Because tracking practices start early, tracking is well institutionalized by middle
school, and later on as students continue to be sorted out in high school (Darling-
Hammond, 2007; Oakes, 1990). In particular, Hispanic ESL students are not in the
position to enroll in rigorous classes such as Algebra I and beyond. Oakes (1990)
referenced a variety of variables that interact and build upon each other to make it
difficult for minority students to succeed, such as poor curriculum, differences in teacher
expectations and instruction.
Opportunity-to-learn should be viewed as all students’ having equal opportunities
to be exposed to a rigorous curriculum at all grade level standards, and legislation
provides safety nets to level the playing field because not all students start off on the
same playing field. The Public Schools Accountability Act (PSAA) of 1999, NCLB
(2001) and the 2005 Algebra for All initiative each shares the common the desire to
promote high quality education for all students. Since the passage of PSAA (1999)
California maintained a system for holding schools accountable for student achievement
(EdSource, 2013).
With the reauthorizations of the Elementary and Secondary Act (ESEA) of 1996,
later known as NCLB (2001), more federal focus on achievement for disadvantaged
students, including English Learners and students of poverty and special needs, were
guaranteed. Relevant to this study is that the updated NCLB added the assessment
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requirements for subgroups. NCLB’s (2002) intended outcomes included the intended
goal of producing 100 percent proficient students in California by the year 2014 through
increases in OTL, increases in equal opportunities for student participation in regards to
rigorous curriculum, and access to teacher quality in order to meet the overall goal of
decreasing the achievement gap.
The findings of this study are corroborated by EdSource (2011) and Levy (2011).
Large California districts made strides in the right direction as an increased percent of
ESL learners have access to early algebra. California Latino 8
th
grade students have
nearly doubled in participation, as 26 to 48% tested in Algebra I between 2003 and 2008
(EdSource, 2013). In corroboration to this study Levy (2011) found that participation in
Algebra I by Grade 8 in California nearly doubled between 2003 and 2011, from 32
percent to 62 percent. By 2011, 50 percent of California schools had improved student
OTL with an increased student enrollment of at least 60 percent of students in Algebra I
in grade 8 (Levy, 2011). In conclusion, the results of this study provide strong support
for the efficacy of the aforementioned legislation on ESL OTL.
With the intended consequences in mind, NCLB policy formatted the following
tools to ensure outcomes: (1) the use of federal funds as leverage to ensure that all
students have equal opportunities for an education (EdSource, 2013), (2) the use of
mandates such as supported by PSAA, through AMOs which help set AYP goals in order
to further meet state API goals, (3) incentives and sanctions to motivate participation and
punish underperforming districts, and (4) the ability to provide system changes when
needed, such as the charter schools.
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Algebra I Success
In regards to Question 3: To what extent, if any, have large urban school
districts in CA increased ESL success in Algebra I between 2004 and 2012?
Algebra I Success. Since the inception of the 2005 Algebra for All state
initiative, seventeen out of 18 large school districts improved ESL Algebra I success rates
by over 20 percent. Within all 18 districts, the improvement ranged from 8% to 60%. In
all but Elk Grove increases in success ranged from 22 percent in Sacramento to 60
percent in Anaheim. The median success rate success rate change for all 18 districts was
32%. Aside from two districts Riverside and Stockton, in which ESL students’
experienced bigger success changes than White students, there were substantial success
changes.
The 2012 Algebra I success data were equally encouraging. The top eight
districts with success rate increases greater than or equal to 65% were: Anaheim,
Riverside, San Francisco, San Diego, Sweetwater, Corona-Norco, Sacramento and Elk
Grove high school districts. Each statewide district had a success rate greater than 50%
and the median district level success rate was 63%.
In regards to Question 4: To what extent, if any, have large urban school
districts in CA decreased the gap between ESL and White student Algebra I success
between 2004 and 2012?
Algebra I Success Gap. In regards to ESL student success gap, there was a trend
towards increasing the White – ESL gap. Districts that increased the gap by more than
10 percent were: Elk Grove, Lodi, Long Beach, Sacramento, Corona-Norco, Mt. Diablo,
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Moreno Valley, and LAUSD Unified School Districts. In contrast, three districts in
particular decreased the success gap: Stockton, Riverside and San Francisco.
Discussion of Algebra I success findings. Results on OTL Algebra I from this
study are corroborated by findings from Levy (2011). Levy analyzed a total of 152
districts that enrolled 100 or more students in each of grades 7-11. As in the present
study, Levy (2011) defined success as “basic and above,” which is a raw score of 300 or
greater on the Algebra I CST. Averaged over 152 districts, Levy found that Algebra I
success by grade 9 increased from 41% in 2003 to 68 percent in 2011.
In addition, Levy (2011) found that higher percentages of students enrolled in
Algebra I by grade 8 was related to higher success rates in Algebra I by grade nine. In
other words, as the percentage of OTL Algebra I by grade 8 (access to rigorous courses)
increases, the percentage of students increasing in math success “basic and above,” also
increase. Although correlation does not prove causation, Levy used complex path
analytic techniques and made the case that districts can use early Algebra I to increase
Algebra II success by grade 11.
The EdSource (2011) study of the entire population of California schools provides
further corroboration to the present findings. EdSource found that students are
experiencing more success in math due to greater opportunity-to-learn and that nearly
twice as many 8
th
graders scored proficient or advanced in 2009 as in 2003. Most
importantly, there were 3.8 times as many economically disadvantaged students who
scored proficient or advanced in Algebra I in 2009.
However, Algebra for All is not without its critics. Many educators claim that
schools are faced with uncontrollable factors and cannot ensure Algebra I success in
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grade 8. In support of this claim, Taylor, Kurlanender, and Rose (2012) provided
evidence to suggest that grade 8 algebra course placement decreased 8
th
grade math GPA
and therefore does not help NCLB meets its intended consequence of decreasing math
achievement gaps. However, Taylor et al. only looked at the bottom 10% of the student
test score distribution.
Furthermore, there is a concern about the effect of Algebra for All on students at
the top end of the distribution. Nomi (2012) analyzed math achievement before and after
the Chicago Public Schools suspended all ninth grade remedial classes and instead
provided Algebra for All. Nomi found that this Algebra for All by grade 9 mandate only
served to lower the skill levels of the higher performing students and attributed this effect
to the increased scheduling of students in mixed grouping arrangements.
Levy and Hocevar (2013) contend that despite the lowered skills for remedial and
advanced students, mixed ability courses than tracking students makes perfect sense, as it
benefits a majority of marginalized students and this is the greater good in comparison to
the lower than expected scores that remedial and advanced students experience.
Discussion and Implications
The results of this study are consistent with results of previous studies on tracking
which reveal the harm of tracking practices because they are neither equitable nor
effective (Oakes, 1990, 1992, 1995). First, there are multiple inequalities which, without
legislation such as the 2005 Algebra for All initiative, minority, low-income, and
Hispanic/Latino EL students would not experience OTL early algebra and math success
in comparison to White students. Oakes’ (1990) cross-sectional data from the National
Science Foundation 1985-1986 survey (NSSME) found, in cases in which low-income
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Hispanic students in secondary schools are the majority, they have (1) less extensive and
demanding math programs, (2) fewer OTL algebra and geometry courses in middle
school and later calculus as a high school senior – indicators of college and career
readiness, and (3) disproportionate placement in less traditional academic science and
math content courses needed to prepare them for future careers in science, math, and
technology.
Second, Oakes (1990, 1992) supports the present study by crediting inequalities
of OTL and tracking practices to achievement gaps between White and Hispanic/Latino
students. Oakes (1990, 1992) found (1) schools with low-income and minority students
had less qualified teachers in comparison to schools with in more affluent areas (2)
inequalities related to resources (for example, technology and quality textbooks), (3) and
discrepancies in instructional conditions such as classroom instruction and opportunities
for rigorous curriculum. For example, Latino students are less likely to be involved in
mathematics and science learning and are disproportionately assigned to low-track
classes in comparison to White students. Minority students were seven times more likely
to be matriculated into low-track classes while White students were six times more likely
to be in high-tracked classes (Oakes, 1990).
Third, without opportunities the Algebra for All initiative offers all students,
Hispanic/Latino students who are more likely placed on a low-ability tracking pathway
will not have a way out, and, therefore, need legislation such as Algebra for All.
Oakes and Guiton (1995) found that, once students were placed on a particular
track or ability level of a course, students were predisposed to subsequent years of the
same. For example, Oakes and Guiton’s (1995) study on three demographically different
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comprehensive West Coast urban high schools found that, when prerequisites (which
consists of a combination of test scores, grades and teacher and counselor
recommendations) were met, students were more likely to move onto honors tracks, and,
if prerequisites were not met, students were assigned to lower course levels. Oakes and
Guiton (1995) also found that, once on a particular track or ability level course pathway,
students were predisposed to subsequent years of the same.
Oakes and Guiton (1995) found that each school in their study shaped tracking
decisions differently based on seven propositions. Relevant to this study were (1) schools
view students’ abilities, motivation and aspirations as fixed (“it’s all over by high school”
p.10), so judgments about students’ beliefs contributed to tracking, (2) curriculum seeks
to accommodate, not alter, student characteristics (schools that viewed student body as
highly abled provided more rigorous and Advanced Placement offerings), (3) schools
accommodated achievement with advantage (meaning students with higher test scores led
to math courses placements that met college requirements), and (4) because race,
ethnicity, and social class signal ability and motivation, they also influence curriculum
decisions. The implication suggests that, at mixed-population schools that include high
population of Latinos, fewer college preparatory classes were offered because this
population is perceived as less likely to go to college,.
Oakes and Guiton (1995) found participation in college-prep math (defined as
Algebra 2 by grade 11) differed by race/ethnicity, and Latino students participated at
lower rates than Whites at two of the three schools in the study. Whites had 33 percent
participation in college-prep courses at Washington while only 15 percent of the Latinos
participated. At Coolidge High School, 38 percent of Whites participated in comparison
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to 8 percent of the Latinos. As a result, Oakes (1995) found a disproportionally large
amount of Latinos in the ESL, remedial and low-tracked vocational programs and at each
of the 3 schools due to judgments about Latinos as being less-well suited for academic
work. Since inequalities are not likely, according to Oakes (1990), to correct themselves,
legislation such as the PSAA (1999), NCLB (200, 2002) and, according to this study, the
2005 Algebra for All initiative are necessary as schools strive to protect every student’s
right to equal opportunities to education and the right to pursue happiness that comes
from having OTL and be successful in life.
State decision implications. This study comes at an important time in history as
the California State Board of Education (SBE) shifted math policy ending the Algebra for
All, Algebra I by grade 8 OTL. The decision to stop early algebra also has the potential
to reverse the great strides made by districts in providing OTL early math and future ESL
Algebra I gap reductions as presented in this study and another study (EdSource, 2013).
This study may, therefore, serve as current and relevant support for the Algebra for All
initiative and may have the potential to influence future policy decisions made by policy-
makers, present day state and local boards, and, more importantly, it may make a
difference in the lives of many minority students, specifically English Language
Learners.
The state’s decision to stop Algebra for All carries with it impending
responsibility which may negatively affect future generations of English Learners’ OTL
and math success rates. Just when English Learners have begun the quest to more OTL
early math and are experiencing increased percentages in math success, the California
Board of Education is changing the rules. The unintended consequence may result in a
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lower opportunity for ESL students along with increased risks to our national and
financial security. The decision to stop early algebra was based on old ideals that suggest
only “some” students are ready and “only those who have the skills” will be encouraged
to take algebra. This decision should cause serious concerns as race-based tracking,
which is illegal, is de facto segregation. Additionally, these comments and the decision
to stop Algebra I by grade, itself, are in direct contradiction to not only this study but
studies done by many others. Oakes (2009) described that tracking, an illegal process,
has been, over the years, disguised in the form homogeneous grouping and, today, the
state’s decision will, again, multiply student inequalities by leaving the decision of who
takes algebra in the hands of local boards.
Leaving opportunity-to-learn algebra in the hands of local boards is worrisome, as
it may lead to regressed OTL for ESLs. For example, since the 2005 Algebra for All
initiative, in 2012, five of the ten largest districts in this study with over 40 percent ESL
student population met the NCLB high expectation goal towards meeting equitable OTL
Algebra by grade 8, as 43,541 students within those five districts tested for Algebra in
grade 8. Five districts that ESL students with over a 50 percent change in OTL were
Anaheim, San Francisco, San Bernardino, Stockton, and Moreno Valley Unified. In
addition to these five districts, Mt. Diablo and Lodi Unified (seven districts in all) met the
NCLB high expectations goal towards more equitable changes in OTL by exceeding the
amount of ESL change in OTL by 50 percent or more, as 17 percent of these ESL
students had an increase in OTL Algebra I by grade 8 of over 40 percent.
ESL students are not successful because they have been denied rigorous
opportunities and slowed down by being put on slow track pathways early on in
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education, so that, if it appears that their math skills are weak, they are. However, this is
not because ESL students cannot learn. It is because the education system has failed by
separating students and not preparing them adequately (Darling-Hammond, 2006; Oakes,
1990, 1992). Noting that only “some” students will be encouraged to take algebra is
cause for alarm since it can be a disguise for unwarranted tracking practices. Some
students will remain in high-ability tracking pathways while others and, more likely, ESL
students will be put on low-ability tracking pathways.
Oakes and Guiton (1995) stated that Human Capital Theory recognizes that all
educational options do not provide the same opportunity-to-learn, but, instead, capitalism
encourages competition for educational opportunities. This acknowledgement should
continue to prompt legislators, policy-makers, districts, school boards, administrators,
teachers, and parents to advocate for students who depend on adults to guide them. At a
more practical level, there is a need to minimize bureaucracy and organizational
regularities that have created tracking conditions (Oakes & Guiton, 1995). These include
the need to create efficient master schedules, the need to minimize biased teacher
recommendations, and need to provide academic prerequisites that will benefit all
students (consisting of a combination of test scores, grades and teacher and counselor
recommendations), all of which would help to de-regulate the propensity for student
tracking (Oakes & Guiton, 1995).
Limitations
A primary internal validity limitation regarding this study, which affects the
ability to show causation is the fact that the large districts examined were not randomly
assigned. Further, there were external validity limitations. For example, the participants
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were limited to grade 7 to 11 and the setting was limited to California. Moreover, the
treatment, Algebra for All may be considered a misnomer because the definition of what
is considered Algebra for All may have been operationally defined differently by each
state, in that some may have determined that providing 85% of students with Algebra I
access is what was meant by Algebra for All, while others may have interpreted it to
mean 90%. Lastly, the Algebra I California State Test, a dependent variable measured in
this study, is considered the hardest test in the nation as it includes quadratic equations;
and this calculation is not tested in other states.
Recommendations for Future Study
Overall, the English Leaner population and academic achievement has yet to be
explored to a full extent. In addition, opportunity-to-learn warrants more research in order
to strengthen statements regarding the relationship between OTL and success. In terms
of secondary education, high school research is marginal and more research regarding
course taking patterns for English Learners would provide school districts opportunities
to make master scheduling decisions based on research (Callahan, 2005).
Recommendations for Practice
The results of this study suggest California school districts should continue the
practice of Algebra for All, Algebra I by grade 8, as this policy provides all students,
particularly ESL students, more opportunities-to-learn and more opportunities to
experience early math success. Students with the opportunity to learn math will be able
to transfer those skills to Science, Technology, Engineering and Mathematics (STEM)
coursework in college. To do this, and in response to how to handle the difficulties of
learning algebra, it has been suggested that all students experience access and math
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success before the 7th grade (EdSource, 2011). For example, knowing how to convert
fractions to decimals and percentages along with having the basic understanding of
graphs and ability to follow multi-step problems is fundamental to algebra concepts
(EdSource, 2011).
For policy-makers, it is suggested that caution should be taken in regards to which
students are given the opportunity-to-learn, as this affects minority students of color, low-
income and special needs children. Taking into account and learning more about the
intended audience, such as English Learners, is important (Olsen, 2010). In the next
section, six strategies for doing so are outlined.
Increase knowledge and awareness of ESL Typologies. Although the Common
Core State Standards are intended to even the playing field for students, unless increases
in teacher and administrator knowledge and understanding of equity and EL typologies
(NCTM, 2008; Olsen, 2010) are implemented, students will continue to be affected by
what people think about them. Currently, there exists a lack of knowledge and strong
understanding in regards to English Learner typologies and how to motivate, engage, and
meet the needs that go along with each typology for student success (Olsen, 2010).
Teacher education programs have not prepared teachers adequately for working with this
diverse student population and, although research is emerging, it is considerably sparse.
Moreover, administrators have not been trained either. This lack of knowledge and
understanding has influenced policymakers, districts, administrators and teachers in
regards to appropriate EL program planning and master scheduling. Therefore, students
have been homogenously tracked and put on narrow course pathways that lead to a
decrease in OTL and success rates, specifically in math.
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Access and address knowledge gaps. The NCLB (2002) mandate of “Highly
Qualified” teachers did not guarantee students would have teachers with a deep
understanding of the culture and context in which different children live, or that teachers
are prepared to work with diverse groups such as English Learners (Darling-Hammond,
2006; EdSource, 2009; Olsen, 2010). Research has shown that a gap in knowledge and
understanding regarding English Learners contributed to mixed messages and
misunderstandings that lead to educators’ lower expectations for English Learners and
misplacement in terms of curriculum (Darling-Hammond, 2006; Oakes, 1990, 2010;
Oakes & Guiton, 1995).
Assessing and then addressing knowledge gaps would increase student OTL
Algebra I by grade 8 and math success rates. The difference between a student’s
academic ability and academic language or linguistic developmental needs is essential for
OTL. Knowing that the ability to learn English as a second language does not prevent
students or affect their ability to learn other academic content such as Algebra concepts is
important for OTL (Valenzuela, 2000). For example, although students may not speak
English and need to be put in ELD classes to help them obtain English proficiency, it is
unfair to assume that they cannot learn at high cognitive levels or that they should be
denied access to a rigorous curriculum. Many times, however, the rigor expectations for
these students are decreased (Freeman, Freeman & Mercuri, 2003; Garcia, 2000; Oakes,
1992).
Provide cultural proficiency awareness. To address knowledge gaps, districts
need to provide cultural proficiency awareness professional development. The concept
of cultural proficiency, which refers to a level of knowledge-based skills and
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understanding required to teach and interact successfully with students and colleagues
from a variety of backgrounds, affects the choices educators make in terms of equal
access to educational opportunities within master scheduling (Olsen, 2010). In addition
to adults receiving training, students also should participate.
Address student self-efficacy. Addressing student self-efficacy is essential.
Indicators of long-term problems associated with tracking practices are low scores on
high stakes tests and high drop-out rates (Olsen, 2010). Drop-out rates may be influenced
by low-self efficacy, which is based on motivational theory of action (Mayer, 2011).
Low self-efficacy results from being in low-ability classes over time. Self-efficacy is an
important motivation theory that affects student success. The experience of segregation
and isolation leads to low student self-efficacy. Students have been known to suffer in
silence (Kindlon & Thompson, 2002).
Provide high student expectations and rigor. Callahan (2005) revealed that
tracking was a better predictor of EL Learners’ academic achievement performance than
was proficiency in English. Therefore, students should be involved both in learning
English and in rigorous academic content. Rigor and high-order thinking skills are
necessary for all students and are important elements to achieve equity.
Conclusion
The relationship between the 2005 Algebra for All initiative on English as a
Second Language (ESL) learner access and achievement in Algebra I was examined to
determine if ESL students continue to be denied equal opportunity-to-learn (OTL) as a
result of unnecessary tracking practices. In this quasi-experiment, a pre-post
retrospective comparison group design was used to determine the effects of the California
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Algebra for All (2005) initiative. Two dependent variables, OTL and California
Standards-Based Tests (CST) Algebra I success, were measured. This retrospective
comparison group design allowed for an analysis of the difference between post (2012)
and pre-intervention (2004) Algebra I scores. Three independent variables in this study
were examined: (1) LAUSD versus 17 large urban school districts, (2) White vs. ESL
students, and (3) differential implementation of Algebra for All from 2004 to 2012 in 18
large urban school districts.
Four research questions were addressed: 1) To what extent, if any, have large
urban school districts in CA increased ESL access to early algebra between 2004 and
2012?; 2) To what extent, if any, have large urban school districts in CA decreased the
gap between ESL and White student access to early algebra between 2004 and 2012?; 3)
To what extent, if any, have large urban school districts in CA increased ESL success in
Algebra I between 2004 and 2012?; and 4) To what extent, if any, have large urban
school districts in CA decreased the gap between ESL and White student Algebra I
success between 2004 and 2012?.
The 2005 Algebra for All initiative in all but two districts, Long Beach and Elk
Grove, led to more equitable changes. Seven of the 18 largest districts in this study, each
with over 31 or more percent of an ESL student population, increased ESL opportunity-
to-learn by 50% or more since the year 2004. These districts were: Anaheim, Lodi, San
Francisco, San Bernardino, Stockton, and Moreno Valley, and Mt. Diablo. The mean
percent change in ESL OTL was 38%.
The 2012 ESL Algebra I opportunity-to-learn data were equally promising. The
top three districts with OTL rates greater than or equal to 90% were: San Francisco,
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Stockton and Moreno Valley. In addition to these three districts, Mt. Diablo, Corona-
Norco, San Bernardino, San Diego (seven in all) districts had ESL 2012 OTL rates
greater than 80%. Fifteen out of the 18 districts had an ESL OTL rate greater than 50
percent. The median 2012 district level OTL rate was 63%.
Since the inception of the 2005 Algebra for All state initiative, 17 out of 18 large
school districts improved ESL Algebra I success rates by over 20 percent. Within all 18
districts, the improvement ranged from 8% to 60%. In all but Elk Grove increases in
success ranged from 22 percent in Sacramento to 60 percent in Anaheim. The median
success rate success rate change for all 18 districts was 32%. Aside from two districts
Riverside and Stockton, in which ESL students’ experienced bigger success changes than
White students, there were substantial success changes.
The 2012 Algebra I success data are equally encouraging. The top eight districts
with success rates greater than or equal to 65% were: Anaheim, Riverside, San Francisco,
San Diego, Sweetwater, Corona-Norco, Sacramento and Elk Grove high school districts.
Each statewide district had a success rate greater than 50% and the median district level
success rate is 63%.
California school districts have made great strides for ESL learners in 2012 in
comparison to 2004. Thus, the recent January 16, 2013 State Board of Education
decision to end the 2005 Algebra for All push for Algebra I at grade eight, is reason for
great alarm. Despite acknowledging improvements in Latino enrollment which nearly
tripled to 63% likewise, Latino proficiency rates doubled to 42 percent, the state’s
concern for the other 60% who were not proficient coupled with the idea that out of those
who repeated the class only one in five scored proficient, was reasonable cause for them
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to stop Algebra for All (Fensterwald, 2013). Parenthetically, the problem with the new
decision to stop Algebra I by grade 8 is that it will only apply to “some” students not all.
Predicted is a decline from the two-third eighth grade enrollment in Algebra I as a result
of the Common Core’s gradual approach to Algebra I.
Lastly, trepidation by Algebra I grade 8 advocates, such as Doug McRae, warn
that inconsistencies from the current state decision such as: (1) unclear language
standards stressing acceleration to Algebra I, (2) the fact that not testing for Algebra I in
grade 8 leads to both a “path of least resistance” and more teacher bias (cited in
Fensterwald, 2013), and (3) the lack of state incentives, will in essence, only serve to
deny student’s their civil right to OTL as initiated by NCLB. Instead of “No Children
Left Behind”, this current legislation will contribute to “ESL Students Left Behind.”
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Appendix A
ESL OTL
0
10
20
30
40
50
60
70
80
90
100
ESL
OTL
2012
2007
2004
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Appendix B
White OTL Data
0
10
20
30
40
50
60
70
80
90
100
WHITE
OTL
DATA
2012
2007
2004
ALGEBRA FOR ALL 139
Appendix C
ESL Success Grade 9
0
10
20
30
40
50
60
70
80
90
100
ESL
Success
Grade
9
2012
2007
2004
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Appendix D
White Success Grade 9
0
10
20
30
40
50
60
70
80
90
100
White
Sucess
Grade
9
2012
2007
2004
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Appendix E
Median White, ESL, & LAUSD OTL Data
0
20
40
60
80
100
2004
2007
2012
Median
White,
ESL,
&
LAUSD
OTL
DATA
Statewide
White
Statewide
ESL
LAUSD
White
LAUSD
ESL
ALGEBRA FOR ALL 142
Appendix F
Median LAUSD, White, ESL Success Grade 9
0
10
20
30
40
50
60
70
80
90
100
2004
2007
2012
Median
LAUSD,
White,
ESL
Success
Grade
9
White
ESL
LAUSD
White
LAUSD
ESL
Abstract (if available)
Abstract
English as a Second Language (ESL) learners’ access and achievement in Algebra I was examined to determine whether ESL students continue to be denied equal opportunity-to-learn (OTL) as a result of unnecessary tracking practices. In this quasi- experiment, a pre-post retrospective comparison group design was used to determine the effects of the California Algebra for All (2005) initiative. Two dependent variables, OTL and California Standards-Based Test (CST) Algebra I success, were measured. This retrospective comparison group design allowed for an analysis of the difference between post- (2012) and pre-intervention (2004) Algebra I scores. Three independent variables in this study were examined: (1) LAUSD versus seventeen large urban school districts, (2) White vs. ESL students, and (3) differential implementation of Algebra for All from 2004 to 2012 in eighteen large urban school districts. ❧ Four research questions were addressed: 1) To what extent, if any, have large urban school districts in California increased ESL access to early Algebra between 2004 and 2012?
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Algebra for all and its relationship to English learner's opportunity-to-learn and algebra I success rates
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