EPI BRIEFING PAPER E C O N O M I C P O L I C Y I N S T I T U T E • A P R I L 2 4 , 2 0 1 4 • B R I E F I N G P A P E R # 3 7 5 DO POOR KIDS DESERVE LOWER-QUALITY EDUCATION THAN RICH KIDS? EVALUATING SCHOOL PRIVATIZATION PROPOSALS IN MILWAUKEE, WISCONSIN B Y G O R D O N L A F E R ECONOMIC POLICY INSTITUTE • 1333 H STREET, NW • SUITE 300, EAST TOWER • WASHINGTON, DC 20005 • 202.775.8810 • WWW.EPI.ORG http://www.epi.org/people/gordon-lafer/ http://www.epi.org/ Table of contents Are charter schools better than public schools? .........................................................................................................4 Evidence on charter schools’ efficacy ........................................................................................................................5 The Rocketship education model .............................................................................................................................7 Understanding Rocketship’s business model ...........................................................................................................12 Good schools: What do we know about what works, and how does Rocketship compare? ...................................17 The basics: Poverty and class size ............................................................................................................................17 Experienced teachers ..............................................................................................................................................19 A broad curriculum and diverse opportunities for learning.....................................................................................19 What’s missing from the tests .................................................................................................................................20 A broad curriculum: Music, art, and playtime ........................................................................................................21 Libraries and librarians ...........................................................................................................................................21 The best schools in the world—and in Wisconsin ..................................................................................................22 The Finland model.................................................................................................................................................22 Wisconsin’s best elementary schools .......................................................................................................................23 Where privileged parents send their children to school ...........................................................................................23 Privatizing education: Assessing Wisconsin’s proposed “school accountability” legislation .................................25 Senate Bill 286’s financial impact on Milwaukee public schools .............................................................................30 Education reform and corporate lobbies .................................................................................................................32 Corporate lobbies’ role in transforming schools .....................................................................................................32 Creating failure: Slashing public education funding ...............................................................................................33 Creating failure: Making it harder for families to escape poverty.............................................................................33 Conclusion: True accountability for quality education...........................................................................................35 Acknowledgments.....................................................................................................................................................37 About the author ......................................................................................................................................................37 Endnotes ...................................................................................................................................................................38 References .................................................................................................................................................................42 EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 2 D uring the past year, Wisconsin state legislators debated a series of bills aimed at closing low-performing public schools and replacing them with privately run charter schools. These proposals were particularly tar- geted at Milwaukee, the state’s largest and poorest school district. Ultimately, the only legislation enacted was a bill that modestly increases school reporting requirements, without stip- ulating consequences for low performance. Nevertheless, the more ambitious proposals will likely remain at the core of Wisconsin’s debates over education policy, and legislative leaders have made clear their desire to revisit them in next year’s session. To help inform these deliberations, this report addresses the most comprehensive set of reforms put for- ward in the 2013–2014 legislative session. Backers of these reforms are particularly enamored of a new type of charter school represented by the Rocketship chain of schools—a low-budget operation that relies on young and inexperienced teachers rather than more veteran and expensive faculty, that reduces the curriculum to a near-exclusive focus on reading and math, and that replaces teachers with online learning and digital applications for a significant portion of the day. Rocketship proposes that its model—dubbed “blended learning” for its combination of in-person and computerized instruction—can cut costs while raising low-income students’ test scores (Rocketship Education 2011). The call for public schools to be replaced by such tech-heavy, teacher-light operations comes from some of the most powerful actors in local and national politics: the major corporate lobbies, including Wisconsin Manufacturers and Commerce, Americans for Prosperity, and the Metropolitan Milwaukee Association of Commerce (MMAC). It is these groups, rather than parents or community organizations, that provided the impetus for legislators to consider proposals for mass school closure and privatization in Milwaukee. In advocating school privatization, MMAC, allied corporate lobbies, and corporate-funded think tanks claim to be act- ing out of social altruism, motivated by the tragedy of poor children whose needs are unmet in the public school system. Yet—as is detailed later in this report—these same organizations have traditionally opposed what are typically consid- ered two of the fundamental building blocks for improving education, particularly for poor children: adequate school funding and effective anti-poverty policies. This report evaluates the “blended learning” model of education exemplified by Rocketship and seeks to understand how the “school accountability” legislation debated during the most recent legislative session would likely affect Mil- waukee schools. This briefing paper also explains how such proposals might fit within the broader economic agenda of both local and national corporate lobbies. Above all, the report questions why an educational model deemed substan- dard for more privileged suburban children is being so vigorously promoted—perhaps even forced—on poor children in Milwaukee. Upon examination, it appears that charter privatization proposals are driven more by financial and ideological grounds than by sound pedagogy: National research shows that charter schools, on average, perform no better than public schools. There is thus no basis for believing that replacing traditional public schools in Milwaukee with privately run charters will result in improved education. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 3 The “blended learning” model of education exemplified by the Rocketship chain of charter schools—often pro- moted by charter boosters—is predicated on paying minimal attention to anything but math and literacy, and even those subjects are taught by inexperienced teachers carrying out data-driven lesson plans relentlessly focused on test preparation. But evidence from Wisconsin, the country, and the world shows that students receive a better educa- tion from experienced teachers offering a broad curriculum that emphasizes curiosity, creativity, and critical think- ing, as well as getting the right answers on standardized tests. Blended-learning schools such as Rocketship are supported by investment banks, hedge funds, and venture capital firms that, in turn, aim to profit from both the construction and, especially, the digital software assigned to students. To fund the growth of such operations, money earmarked for Milwaukee students is diverted to national headquar- ters and other cities where the company seeks to expand. Furthermore, the very curricular model that Rocketship employs is shaped not simply by what is good for kids but also, in part, by what will generate profits for investors and fuel the company’s ambitious growth plans. The proposed “school accountability” bill that Wisconsin State Senate Education Committee Chair Luther Olsen drafted in January 2014—which embodies the most ambitious version of corporate-backed school reform—measures school achievement in ways that are skewed against poor cities and that exempt charter schools from equal accountability. Such a bill would likely result in shutting a growing number of public schools and con- centrating the city’s neediest students in a shrinking public system that is denied the resources to serve them. Even- tually, this would bankrupt the public school district. Some of the best options for school improvement are outlawed in Sen. Olsen’s draft bill. For instance, Milwaukee’s award-winning ALBA (Academia de Lenguajes y Bellas Artes) school is a publicly run charter school that outper- formed every privately run charter in the city. Yet under the proposed legislation, this school would be banned from opening more campuses, while privately run schools with much worse performance would be encouraged to expand. To truly improve education in Milwaukee, we must start with the assumption that poor children are no less deserv- ing of a quality education than rich children. As such, the schools that privileged suburban parents demand for their children should be the yardstick we use to measure the adequacy of education in the city. This means subjecting all schools—whether public, charter, or voucher—to the same standards of accountability, including measurements that account for the economic and disability challenges their students face, and that recognize the value of a broad curriculum and experienced teachers who are qualified to develop the full range of each child’s capacities. Are charter schools better than public schools? Over the past three years there has been an unprecedented wave of legislation in states across the country aimed at trans- forming public education. Debates on education policy draw an extraordinarily wide number of participants, including parents, students, and a broad assortment of nonprofit advocacy groups. Yet when examining which of the hundreds of education-related bills introduced actually become law, it is generally those backed by major corporate lobbies, such as the American Legislative Exchange Council (ALEC), that advance furthest. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 4 Until the past decade, these lobbies paid scant attention to education policy. But as will be explained in greater detail later in this paper, in recent years they have become dominant players in school reform debates—particularly in the promotion of online learning and privately run charter schools. At their most ambitious, corporate advocates have recently sought to promote the replacement of public schools by privately run charters not on a school-by-school basis, but through the transformation of whole school districts. This strategy was first enacted in New Orleans following Hurricane Katrina, when the Bush administration refused to fund the reopening of public schools, and instead provided $45 million for charter schools to take over the district (Saulny 2006). As the charter industry has grown and as corporate money has become increasingly influential in both state and local politics, corporate lobbyists have sought to replicate the New Orleans model in other poor cities. Whether dubbed a “recovery district,” “achievement district,” or “portfolio district,” these endeavors all function along similar lines: Invoke standardized tests to declare a large swath of schools to be irredeemable failures, then close them and send their students (and their tax dollars) to privately run startups. In the process, the charter industry and the investors who profit from it are able to realize growth in leaps and bounds rather than school-by-school. When the Metropolitan Milwaukee Association of Commerce initiated the call to create an “accountability district” for Milwaukee schools, it looked to New Orleans as its model (Richards 2013b). It is thus crucial to determine whether charter schools are indeed more effective than traditional public schools. As the following sections explain, there is no evidentiary basis for believing that substituting charters for public schools will, in itself, improve education in Milwaukee or any other city. Furthermore, the education model of the Rocketship chain of schools, a company central to the education reform push in Milwaukee, is particularly ill-suited to providing the city’s children with a high-quality education. Evidence on charter schools’ efficacy The original image of a charter school revolves around a lone dedicated educator, or a local community of parents, who decide to take over a school and make it into something better for their kids. In reality, rather than a proliferation of small experiments, the last few years have witnessed a pattern of corporate consolidation. By 2011 less than 17 percent of charter students were in schools run by companies that operated three or fewer schools. The majority were overseen by corporations operating 10 or more schools (Miron and Gulosino 2013, iv). By far the fastest-growing sector of the industry has been online or virtual schools (Miron et al. 2012, 18). As charter schools have grown over the past two decades, multiple studies have compared their performance with that of traditional public schools. Their conclusion: There is no discernible difference. One recent meta-analysis reviewed the results of 83 studies conducted over 12 years, concluding that “on the whole, charters perform similarly to traditional public schools” (Miron and Urschel 2012, 228–230). In many cases, the promise of charter schools has turned into a dismal reality. In Indiana, nearly half the state’s charter schools received grades of “D” or “F” in 2012 (Indiana Department of Education 2012). In Ohio, which has authorized charter schools in the state’s eight largest cities for nearly 20 years, nearly 84,000 students—or 87 percent of the state’s charter students—were in schools graded “D” or “F” in 2012–20131 (Bush 2013). Indeed, one study found that, after controlling for poverty and other student demographics, public schools scored significantly higher on elementary school math tests (Lubienski and Lubienski 2014, 80). EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 5 FIGURE A VIEW INTERACTIVE on epi.org Charter schools’ math score gains as compared with those of public schools, 2013 Source: CREDO (2013), 57 Indistinguishable: 40% Superior: 29% Inferior: 31% The largest national studies have been conducted by Stanford University–based Center for Research on Education Out- comes (CREDO), an organization generally supportive of charter schools. Comparing math scores of charter and public school students, CREDO’s 2009 study found that 17 percent of charter schools had superior growth in math scores, 37 percent were inferior, and 46 percent were “statistically indistinguishable” from public schools. Averaged across all schools, the impact of attending a charter school was a slight—but statistically significant—negative impact for both math and reading gains (CREDO 2009, 3, 22). When CREDO updated its research in 2013 it found better news for charter schools, though public schools still had superior math performance, as shown in Figure A. On the whole, however, the authors report that “the overall results show relatively small average impacts of charter school attendance on student academic growth” (CREDO 2013, 63). Indeed, even the subgroups for whom charters appeared to have the most impacts showed very modest differences from their public school peers (Maul and McClelland 2013).2 Thus, there is no evidentiary basis for believing that substituting charters for public schools will, in itself, improve education in Milwaukee or any other city. Researchers have, however, pointed to several policies that would improve the performance of charter schools. First, charter performance is best in states that strictly limit the number of charter authorizers. Second, charter schools do better in states that have relatively fewer of them. Finally, the single worst- performing schools are for-profit online charters (CREDO 2009, 4; Miron et al. 2012, v). Unfortunately, ALEC and the other major corporate lobbies are advocating for policies that run exactly counter to these findings: They call for Indistinguishable 40% Superior 29% Inferior 31% EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 6 expanding the number of both charter schools and charter authorizers, and they vigorously promote the growth of online education.3 Virtual schools are by far the most profitable sector of the charter industry, thanks to low production costs and to ALEC model bills requiring they receive the same amount of taxpayer dollars per student as traditional schools. Yet their market is inherently limited, as the number of families who will choose to enroll their children in an entirely online curriculum—essentially, homeschooling them by computer—remains a small minority. The profit margins of “blended learning” schools—which split students’ days between in-person and online instruction—aren’t as high as those of entirely virtual schools, but they may be the next best thing. For this reason, investment banks, hedge funds, and venture capital firms have increasingly looked to “blended learning” as a preferred model for urban school districts. Further, while it is difficult to gauge their true costs, as they have been supported to date by generous subsidies from both government and private donors, such schools are touted as a lower-cost alternative to traditional education (Horn and Evans 2013). Thus, this model appeals to tax-cutting politicians as well as investors. Rocketship Education is the leading pioneer of the “blended learning” model (Bowman 2011; Layton 2012). Moreover, it enjoys the backing of Milwaukee business leaders. Tim Sheehy, president of the Metropolitan Milwaukee Association of Commerce, sits on Rocketship’s board, and the association raised $2.5 million in private contributions to help make Rocketship the first national charter chain operating in the city (Richards 2013a). Indeed, the company is so central to school privatization plans that, when the Wisconsin State Senate Education Committee first held hearings on a bill that would make it easier for charter companies to add more schools without need for public approval, one legislator reported hearing Committee Chairman Sen. Luther Olsen tell a colleague that “we’re just doing this for Rocketship” (Conniff 2013). For all these reasons, it is important to evaluate the likely impact on Milwaukee students of a large-scale expansion of Rocketship’s “blended learning” model. The Rocketship education model At the core of what distinguishes Rocketship’s education model from other schools are four principles: the replacement of teachers with computers for a significant portion of the day; a reliance on young and inexperienced teachers for the rest of the day; narrowing the curriculum to math and reading with little attention to other subjects; and even within these subjects, a relentless focus on preparing students for standardized tests. A 2012 national profile of the company describes Rocketship as an experiment aimed at “mass production” of education (Merrow 2012). The first step in creating a mass-production school is shrinking the curriculum to the basics: math and literacy. The company’s “mission statement” for its Milwaukee school consists of one sentence: “Rocketship Milwaukee … will eliminate the achievement gap by graduating our students at or above grade level in Literacy and Math” (Rock- etship Education 2011, 7). More recently, the company has added a modest amount of class time for science, social studies, art, and other “enrichments” (Rocketship Education 2014b; Haines, Voskuil, and Dilber 2014). But none of these is taught by faculty certified in these fields, and these subjects are not generally taught as separate classes. Instead, science is “embedded” in math classes, and both art and social studies are “embedded” in language arts. Thus, the “key outcomes” of social studies instruction are defined largely in terms of literacy goals, including “the ability to use infor- mational text, mastery of academic vocabulary, and increased reading and writing skills” (Rocketship Education 2011, 32). Activities unrelated to literacy—enacting a mock Congress, writing one’s own constitution, or bringing in family members to tell oral histories—may be expected to be marginalized within this curriculum. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 7 Most importantly, teachers’ salaries are primarily based on their students’ math and reading scores (Rocketship Milwau- kee 2014b). No matter what theoretical job description an employee may be given, when she is told what determines her salary, that is the real job description she takes to heart. By linking salaries so tightly to math and reading tests, Rocketship implicitly instructs teachers to devote minimal attention to anything else. Thus, it may be unsurprising that one family reported that, in three years of their daughter attending Rocketship’s Mateo Sheedy Elementary School in San Jose, California, they had never seen her receive homework in any subject other than math and literacy (Rocketship Mateo Sheedy Parent, 2012). Digital instruction: The Learning Lab Starting in kindergarten, Rocketship students spend two hours a day in the school’s “Learning Lab,” which is staffed by “tutors” with no certification and whose only required credential is a high school diploma.4 Scholastic Administrator magazine has dubbed the Learning Lab “the financial and academic key” to Rocketship (Fensterwald 2011). Here, stu- dents can read independently from a set of “leveled books” or, if in the bottom 25 percent of their class, may participate in small-group remedial sessions. But the heart of the Learning Lab is online learning—long rows of computers where students are supposed to engage with instructional software. Rocketship touts online instruction for allowing each stu- dent to go at his own pace, providing an “individualized” learning experience. Digital instruction is also key to the company’s financial strategy. With students spending a quarter of their days in the Learning Lab, Rocketship has cut the size of a normal elementary school teaching staff from 21 to 16, generating an estimated $500,000 per year in savings (Fensterwald 2011). Founding CEO John Danner has expressed hopes to increase online time to 50 percent (Danner 2010). If that goal is realized, teaching staff will be cut yet further, with each school saving an estimated $1 million per year. Inexperienced, high-turnover teaching staff In addition to the switch from human to digital instruction, Rocketship appears to rely on an educational model that functions with an inexperienced, high-turnover teaching staff. The Rocketship school in Milwaukee pays Teach for America (TFA) $52,000 per year to serve as a steady source of beginner teachers (Rocketship Education 2011, Attach- ment G), and nationwide 75 percent of the company’s teachers are either current fellows or recent graduates of TFA (Merrow 2012). TFA is not designed to produce career teachers. Indeed, part of its recruitment message to college grad- uates is that the program will make them competitive for graduate school or corporate employment after their two years in the classroom (Teach for America 2014).5 A company that relies on TFA to supply its teachers must plan on a high degree of turnover; that is part of how TFA is supposed to work. Unsurprisingly, then, on average almost 30 percent of Rocketship teachers leave every year, as shown in Table 1—a rate more than twice as high as in the Milwaukee school district (De La Rosa & Co. 2014, B-22; Richards and Crowe 2013). Yet Rocketship seems designed to function with such a high quit rate. In the proposed five-year budget for Milwaukee, Rocketship budgets essentially no salary increase whatsoever for its teachers. In real (inflation-adjusted) terms, a teacher who joined Rocketship Milwaukee when it opened and stayed for five years would end up earning $2,900—or 4.9 percent—less than when he began (Rocketship Education 2011, Appendix G; Congressional Budget Office 2013, 5). Thus, either teachers are expected to remain dedicated to a job that includes annual real paycuts, or the company’s business plan counts on high turnover, with more experienced teachers being regularly refreshed by newer and cheaper recruits. The result is that the neediest students are taught by the least experienced teachers, who keep disappearing. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 8 T A B L E 1 Teacher turnover in Rocketship schools, 2012–2013 school year Rocketship Si Se Puede 37% Rocketship Brilliant Minds 29% Rocketship Mateo Sheedy 33% Rocketship Los Suenos 22% Rocketship Mosaic 28% Rocketship Discovery Prep 28% Rocketship Alma Academy 23% Rocketship average 29% Source: Rocketship Education, as reproduced in De La Rosa & Co. (2014) Particularly for children from neighborhoods of concentrated poverty, who may experience myriad difficulties and dis- ruptions in their home lives, one of the most important things a school can provide is a stable relationship with a mature adult. Rocketship’s staffing strategy, however, poses an impediment to providing this type of support. Teaching to the test Both in the Learning Lab and in the classrooms, Rocketship’s pedagogy revolves relentlessly around state standardized tests. In national debates over education policy, there is widespread controversy over how central a role standardized tests should play in K–12 education. The accuracy of the tests is often disputed—including by some of those inside the testing industry (Rhoades and Madaus 2003; Farley 2009). Indeed, Seattle teachers recently boycotted the test Rock- etship relies on when they discovered that, at the high school level, its margin of error was greater than the measure of annual improvement used to determine student success (Strauss 2013). For a large share of children, timed math tests produce anxiety that both harms their performance and lowers their self-confidence, leading girls especially to avoid the subject when they reach high school, having been convinced they are “bad at math” (Boaler 2012; Carisch 2012). At Rocketship, however, everything is built around the tests. All students take the state standardized exam once every eight weeks. In addition, they must take a second, proprietary exam (the Northwest Evaluation Association’s Measur- ing Academic Progress, or MAP) three times a year (Rocketship Education 2011, 39). Finally, every digital application students use in the Learning Lab creates a host of daily assessments—how they performed on quizzes and games, how far they progressed in reading, what level math problems they solved, and which they got wrong. These daily data are intended to help teachers “[plan] lessons based on students’ current levels” (Rocketship Education 2011, 38). Thus, the school’s operation is designed to be a seamless exercise. Both digital and classroom instruction are designed around the content of standardized tests, teachers’ salaries and promotions are determined in large part by the improve- ment in their students’ test scores, student progress toward these improvement goals is measured through regular prac- tice exams as well as daily feedback from digital math and reading software, and this feedback, in turn, is used to fine-tune subsequent lesson plans to produce better test outcomes. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 9 Indeed, even in the classrooms, lesson plans are geared to the Common Core standards that form the basis of state exams. Rocketship has developed a practice of “backwards mapping State standards to identify the main objectives” of a subject. “We then develop units and lesson plans within each unit to focus on these . . . objectives” (Rocketship Educa- tion 2011, 29). Standardized tests are no longer regarded as one partial and imperfect measure of education. Here, tests define both the content and scope of education—if students test well, they are, by definition, well-educated. Rocketship by the numbers: Falling performance, high turnover, and repeated redesigns Given that Rocketship places such a strong emphasis on standardized testing, it is telling that, even by this measure, the company has faced struggles and disappointments. While Rocketship has realized significant financial growth over its short lifetime—from 2010 through 2013, the company’s net assets increased by over 600 percent, from $2.2 million to $15.8 million (De La Rosa & Co. 2014, B-23)—the schools’ academic achievements, even by their own measures, have not followed the same trajectory. In the company’s earliest years, some Rocketship schools achieved impressive test scores: Its first school, started in 2007, was the highest-ranked low-income elementary school in Santa Clara County that year, and the seventh-highest in Cal- ifornia (De La Rosa & Co., B-27). Over the past four years, however, test scores have fallen at this and every other Rocketship school. As measured by California’s Academic Performance Index, the average score for the Rocketship network as a whole has declined by just over 10 percent from 2008–2009 to 2012–2013 (De La Rosa & Co., B-28). As shown in Figure B, all five Rocketship schools that reported test results for both 2011–2012 and 2012–2013 show significant declines in academic performance. Indeed, in 2012–2013, all seven of the Rocketship schools failed to make adequate yearly progress according to federal standards, as shown in Table 2. Under the No Child Left Behind law, a school that fails to make adequate yearly progress for two years in a row is deemed in need of “program improvement” and subject to a series of regulatory interventions, including engaging outside experts to determine “what changes need to be made … to improve student achievement,” and setting aside 10 percent of each school’s Title I funding to provide additional teacher training (California Depart- ment of Education 2010). Despite these interventions, Rocketship’s failure to achieve federal math and reading stan- dards has gotten worse rather than better. In 2011–2012, two of Rocketship’s schools were subject to such turnaround mandates; by 2012–2013 four of the company’s seven schools were found in need of “program improvement” (De La Rosa & Co. 2014, B-30-31). The variety of stumbling blocks encountered by Rocketship schools have led school boards in San Francisco, Oakland, and East Palo Alto, California, and the state of Texas, to reject Rocketship’s applications to open schools in their juris- dictions, with the San Francisco board determining that Rocketship “presents an unsound educational program” (San Francisco Unified School District 2011). Indeed, Rocketship itself has noted problems with its model, with CEO John Danner reporting in 2013 that the com- pany had not yet identified computer applications that can be appropriately individualized to each student, and the EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 10 FIGURE B VIEW INTERACTIVE on epi.org Rocketship schools’ academic performance, as measured by California Academic Performance Index, 2011–2013 Source: Rocketship Education, as reproduced in De La Rosa & Co. (2014) T A B L E 2 Rocketship schools’ achievement of Adequate Yearly Progress, 2010–2013 2010–2011 2011–2012 2012–2013 Rocketship Si Se Puede Fail Fail Fail Rocketship Brilliant Minds N/a N/a Fail Rocketship Mateo Sheedy Pass Pass Fail Rocketship Los Suenos Fail Fail Fail Rocketship Mosaic N/a Fail Fail Rocketship Discovery Prep N/a Fail Fail Rocketship Alma Academy N/a N/a Fail Note: N/a indicates school was not yet open for operation. Source: Rocketship Education, as reproduced in De La Rosa & Co. (2014) 2011-2012 2012-2013 Rocketship Mateo Sheedy Rocketship Mosaic Rocketship Si Se Puede Rocketship Discovery Prep Rocketship Los Suenos 700 750 800 850 900 950 company’s chief programs officer conceding that the model produced students who, while passing standardized tests, “struggled with independence” (Noguchi 2013; Wilson and Liao 2014). 2011-2012 2012-2013 Rocketship Mateo Sheedy 924 851 Rocketship Mosaic 872 836 Rocketship Si Se Puede 861 836 Rocketship Discovery Prep 805 790 Rocketship Los Suenos 793 789 EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 11 In 2012–2013, the company radically redesigned its teaching model—abandoning the Learning Lab and placing chil- dren in supersized classrooms of 100 kids with two teachers and technology integrated throughout the classroom. Before the end of the year, however, the experiment was deemed a failure, and most students were returned to the old model. Understanding Rocketship’s business model Given its repeated course corrections, rejection by multiple school boards, declining test scores, high teacher turnover, mandated federal remediation, and general turbulence in the system, one might think that Rocketship executives would take time to pause and reflect before promoting the company’s “model” to school districts around the country, including Milwaukee’s. Indeed, if this were simply a group of educators seeking to develop high-quality schools for poor com- munities, it is hard to imagine that the track record of the past few years would not be taken as a signal to rethink the mission. In Rocketship’s case, however, there appears to be no piece of evidence, nor any critique from educators or education officials, that sways the company from its commitment to rapid and extensive expansion. At different points, Rocketship has made a variety of growth projections, all of them ambitious—46 schools by 2017, 30,000 students by 2019, and ultimately, schools in 50 cities serving 1 million students (Merrow 2012; De La Rosa & Co. 2014, B-14). In its first seven years, the company expanded from one school to nine, and saw enrollment grow to just under 5,000 students. In the coming five years, the company aims to open eight-school chains in seven new cities, and expand its student base to 30,000, as shown in Figure C (De La Rosa & Co. 2014, B-14). To understand what drives the company’s unshakeable pursuit of large-scale growth, it may be more important to understand Rocketship’s business model than its educational philosophy. Rocketship Education is a nonprofit company. However, its operational model blurs the distinction between for-profit and nonprofit businesses. At the heart of what makes Rocketship different from other schools is online instruction—often conducted using licensed software appli- cations supplied by for-profit vendors (Rocketship Education 2011). The more students Rocketship teaches, and the more schools it opens, the bigger the customer base and the larger the licensing fees for these companies. Very little is known about the educational efficacy of these applications; most of them have entered the classroom with- out ever being subject to experimental tests.6 But while there are scant scientific data on the impact of these educational software applications, more is known about some of the investors behind them. From its beginning, Rocketship was championed both by technology executives and venture capital firms.7 For instance, Rocketship received significant funding from the New Schools Venture Fund, one of whose board members is John Doerr, a partner at the prominent venture capital firm Kleiner, Perkins, Caufield & Byers (Rich 2013). Rocketship has also received generous financial backing from Netflix CEO and venture capitalist Reed Hastings, who sits on Rocket- ship’s National Advisory Board (Bowman 2011; Garcia 2014). Together, Doerr and Hastings are two of the primary investors in a for-profit company called DreamBox Learning, having jointly invested over $14 million in the firm (Cook 2013). In turn, Rocketship uses DreamBox software as one of the primary math applications in its Learning Lab (Rock- etship Education 2014a). Thus, Hastings and Doerr help fund the nonprofit Rocketship chain, which contracts with a for-profit company they partially own; the more Rocketship expands, the greater DreamBox’s profits. Because Dream- box is a privately held company, the profits that Doerr and Hastings may be realizing are not publicly known. However, since the venture capital industry averaged a 15 percent return on investments in 2013 (Cambridge Associates 2013), it EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 12 FIGURE C VIEW INTERACTIVE on epi.org Rocketship schools’ total enrollment, 2007–2014 and projected to 2019 Note: Rocketship has established a goal of enrolling 30,000 students by the 2018–2019 school year. Numbers for the years 2014–2015 through 2017–2018 are the author’s interpolations between actual 2014 enrollment and the company’s 2018–2019 goal. Source: Rocketship Education, as reproduced in De La Rosa & Co. (2014) 2007- 2008 2009- 2010 2010- 2011 2011- 2012 2012- 2013 2013- 2014 2014- 2015 2015- 2016 2016- 2017 2017- 2018 2018- 2019 0 10,000 20,000 30,000 is unlikely that the two would have sunk money into a venture that was not expected to achieve at least this average rate of return. When the U.S. Department of Education reviewed DreamBox in December 2013, researchers found 11 studies claim- ing to assess the program’s impact, but immediately rejected 10 of them as statistically meaningless (U.S. Department of Education 2013). While the 11th study used sound methods and reported “significant gains in overall mathematics scores” (Wang and Woodworth 2011), Department of Education staff found that the authors—whose work was com- missioned by Rocketship—had arbitrarily excluded students they deemed “outliers.” When Department of Education staff reran the study with all students included, they concluded that DreamBox has “no discernible effects on mathe- matics achievement for elementary school students” (U.S. Department of Education 2013). Following publication of the Department of Education’s report, the Rocketship-commissioned authors produced additional data that convinced federal researchers to upgrade their assessment of DreamBox’s impacts to “potentially positive effects” based on “small evidence” (U.S. Department of Education 2014). In a school where curriculum is based solely on pedagogical effectiveness, one might assume that if instructional mate- rials were judged to have somewhere between “no discernible effects” and “potentially positive effects,” educators would start looking for a replacement. But Rocketship has continued to employ DreamBox as a standard part of its math pro- gram. Furthermore, both Rocketship and the DreamBox company itself continue to promote the software on the basis Total enrollment 2007-2008 160 2009-2010 266 2010-2011 1,345 2011-2012 2,425 2012-2013 3,818 2013-2014 4,995 2014-2015 7,500 2015-2016 12,500 2016-2017 17,500 2017-2018 23,500 2018-2019 30,000 EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 13 of the very claims that federal researchers declared invalid.8 Nowhere on either Rocketship’s nor DreamBox’s website is there any reference to the Department of Education’s findings (DreamBox Learning 2014). This is not the behavior of education innovators eager to identify best practices that can be shared with others; it is the behavior of self-interested parties eager to market their product. Rocketship promotes itself as a dynamic learning organization, and indeed the company is continually experimenting. However, its innovation appears to be restricted within specific boundaries: It seems that it will not adopt education reforms that have no potential to make money for investors. For instance, a recent study found powerful results from a program that paid retirees to sit down in one-on-two intensive tutoring sessions with students in low-income com- munities. The program aimed both at imparting academic skills and at providing mentorship for young men in these communities (Rich 2014). Although the program was hailed by national researchers, it is hard to imagine that Rocket- ship might ever adopt this sort of intervention, as there is simply no way for technology startups or venture capital firms to profit from this model. Rocketship students are, indeed, participants in an experimental and developing pedagogy. But it appears the question this experiment aims to answer is not simply, “How can we do better by poor kids?” but rather, “How can we educate poor kids while generating a 15 percent rate of return for investors?” An even more intimate case of mixed motives is that of Rocketship founder John Danner who, after eight years as CEO, stepped down in 2013 to found his own for-profit startup which aims to develop software that will allow for greater individuation in online learning and digital integration of homework with classroom instruction (Noguchi 2013). Dan- ner describes his new company—dubbed Zeal—as “online learning 2.0,” predicting that the next generation of online companies face “enormous market opportunities” (Danner 2013). Rocketship has been identified as the company’s first partner (Aspen Institute n.d.; Haines, Voskuil, and Dilber 2014). As with DreamBox, then, Rocketship’s relationship with Zeal features a nonprofit school serving as a testing ground and customer base for personally and financially con- nected for-profit companies. Rocketship’s use of both DreamBox and Zeal software would likely be prohibited as illegal conflicts of interest if they took place in a public school system. If a board member proposed that a school contract with a vendor with whom he or she had a personal financial relationship, this would be rejected out of hand.9 But Rocketship is not bound to uphold the same standard of ethics demanded of public officials, and it does not.10 These relationships help explain the venture capital industry’s antipathy to elected school boards. Reed Hastings recently gained notoriety for declaring that education would be improved if school boards were not elected (Strauss 2014). To many, this may have appeared as ideological arrogance. But unrelated to ideology, there is a very concrete business rea- son for businesspeople such as Hastings to oppose elected school boards. With charter companies like Rocketship, Hast- ings can seal system-wide contracts—potentially covering tens or hundreds of schools across the country—with a single executive decision. Furthermore, the deal may be driven by financial relationships unrelated to the product, and there is no requirement that proof of educational quality take priority over what is good for the company’s bottom line. By contrast, when elected school boards review proposed contracts for instructional software, their decisions are required to be based solely on the product’s proven effectiveness, and they are prohibited from basing contract choices on any other financial relationships. Hastings explains that “selling to school districts . . . [is] a very inefficient market,” because “school districts . . . are really reacting to voter forces more than to market forces . . .” (Crotty 2012). But avoiding relationships such as that between Rocketship and DreamBox—where instructional products may be selected to benefit EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 14 financially connected insiders even if they do not provide the best education for students—is one of the very reasons to maintain elected school boards. Thus, the calls to replace elected boards with appointees—or to shrink the power of elected boards to the point that they no longer exercise control over curriculum and technology contracts—reflects sound business logic, if not necessarily good education policy. Ironically, these commercial relationships create a tremendous pedagogical rigidity in the Rocketship system. Where voucher and charter advocates may criticize the top-down nature of public school districts, Rocketship has, at best, sub- stituted a corporate bureaucracy for a political one. If a teacher or even a principal in a Rocketship school believes a given software product is not appropriate for the school’s students, they are nevertheless required to use the products assigned by the company’s central office (Rocketship Milwaukee 2014b). In this way, Rocketship is a more centralized, command-and-control system than almost any public school. If individual schools were allowed to use their own judg- ment in evaluating the products best suited to their students, the company’s financial backers might be faced with the same frustrations they voice about elected school boards. Rocketship’s centralized business model, along with its zeal for growth, may also explain why the company is so top- heavy compared with public school districts. In the Milwaukee school district, for instance, only 8 percent of all expenses are devoted to central administration (Milwaukee Public Schools 2013a, 12). In contrast, the Milwaukee Rock- etship school spends nearly 29 percent of its total budget on central administrative functions outside the school (Rock- etship Education 2011).11 Indeed, by the time Rocketship Milwaukee expects to reach full enrollment, in 2015–2016, the company’s own data indicate that the school will spend more on administration than on teacher salaries, as shown in Figure D. A significant share of these administrative expenses facilitate the company’s future expansion. To feed this quest for growth, Rocketship has diverted money that could otherwise be used to hire more-experienced teachers, shrink class size, create libraries, or otherwise improve students’ education. Rocketship’s school buildings are owned by a sister com- pany—LaunchPad—which in turn charges Rocketship rent for the facilities. Rocketship’s official business plans include the goal that “LaunchPad will charge relatively high facilities fees” and that “the profit margin will be used to finance new facilities” (Rocketship Education 2009). Thus, tax dollars intended to support the education of Milwaukee stu- dents will instead go, in part, to funding Rocketship’s expansion in other parts of the country. Equally troubling, the company’s educational model itself appears to have been redesigned to meet financial rather than pedagogical objectives. While the company no longer aims to have students spend half their day in the Learning Lab, it continues to seek new ways to employ technology—for instance, in using online applications to teach grammar or carry out homework assignments (Haines, Voskuil, and Dilber 2014)—which in turn will reduce the need for trained teachers and human instruction. As described earlier, in 2012–2013, Rocketship instituted a new “flexible classroom” model that put 109 students in one oversized classroom with just two certified teachers (Herold 2014). Ultimately, only 47 percent of teachers rated this “effective,” and both students and parents preferred the old model (Rocketship Edu- cation 2014b). By the end of the year, the company only retained the “flexible classroom” in 4th and 5th grades, while reverting to the old model for kindergarten through 3rd grade. This lurching between models was stressful for both teachers and students. As one teacher described it: EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 15 FIGURE D VIEW INTERACTIVE on epi.org Rocketship Milwaukee, projected budgeted expenses, 2015–2016 Note: Rocketship Milwaukee predicts a gradual increase in enrollment until full enrollment (600 students) is reached in 2015–2016. That year’s budget is thus used to make the projections depicted in this figure. Source: Rocketship Education (2011) Teacher salaries Administration 0 500,000 1,000,000 1,500,000 $2,000,000 A few months into the . . . school year, Rocketship announced to teachers the start of ‘redesign.’ I say announced, because it was not offered as a conversation, but as a mandate. . . . This model’s vision would have placed 100 students in a room with two credentialed teachers and one learning specialist (including in Kindergarten and first grade). Without research or proof that this was a good idea for our students, redesign was launched at several Rocketship campuses. . . . Unfortunately, the experiment . . . proved to be rash. . . . My biggest concern . . . is that even though Rocketship is experimenting with its model and unsure of its future direction, it still seeks to rapidly expand . . . across America. (Anonymous 2013) The most surprising part of this story, however, is the reasoning behind this year of programmatic upheaval. According to Rocketship board documents, the company had determined that it was generating insufficient income to fuel its growth plans and developed the “flex” model in response. Adopting a student-to-teacher ratio of 50-to-1 would help the company generate an additional $230,000 of net income from each school (Rocketship Education 2013). Instead of developing an effective education model and then determining how to fund it, Rocketship started with the goal of squeezing enough money out of school operations to fund its growth plan, and then redesigned education around those revenue goals. After retreating from the “flexible” model, Rocketship’s profitability is more modest. But the company remains com- mitted to aggressive growth, and the board has insisted that new strategies must be identified to increase efficiencies, Teacher salaries $1,036,800 Administration $1,541,447 EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 16 setting a goal that “if each school could generate $200,000 more net income per year, there would be $9 million of extra cash generated over the next five years to fund growth” (Rocketship Education 2013, 23). Among the strategies raised as possibilities for meeting this goal were laying off assistant principals, expanding online curricula, and staff training aimed at needing “fewer adults in each classroom” (Rocketship Education 2013, 22–23). To the extent that this push is successful, funds designated to serve Milwaukee students will instead be diverted to fund Rocketship’s expansion plans. Good schools: What do we know about what works, and how does Rocketship compare? Decades of rigorous research have established that families’ socioeconomic background is the preeminent factor affecting how children perform in school. Among the factors education policymakers can control, students benefit from small class sizes; experienced teachers; diverse opportunities for learning; a broad curriculum including music, art, and play- time for young children; and professionally staffed libraries. On all of these dimensions, Rocketship falls short. The basics: Poverty and class size Decades of studies have affirmed that the single most important factor affecting educational achievement are inequalities of wealth and poverty. Since the inception of testing under No Child Left Behind, students from poor or economically disadvantaged families have never scored higher than their better-off peers—not at any age, nor in any state (Tienken and Zhao 2013, 112). The impact of poverty similarly outweighs any difference between charter and public schools, for students of any ethnicity, income level, or disability (CREDO 2013, 75). This is partially because students from poor families start school with less exposure to reading, writing, and vocabulary.12 But poverty’s impact on education is often much simpler and cruder than underexposure to vocabulary. As one expert notes: First, health matters. Children who can’t see well can’t read as well as those who can, and lower-class children, on average, have poorer vision than middle-class children. Lower-income children have a higher incidence of lead poisoning, poorer nutrition, and higher rates of iron-deficiency anemia, which result in impaired cogni- tive ability. They have greater exposure to environmental toxins, air pollution, and smoke, and therefore greater incidence of asthma. Lower-class children have less adequate pediatric care, resulting in more frequent absences from school. . . . The lack of affordable housing for low-income families is another social class characteristic that has a demonstrable effect on average achievement. Children whose families have difficulty finding adequate housing move frequently, and student mobility is an important cause of low achievement. Teachers cannot work as effectively with children who are in their classrooms for a short time as with those who stay longer. (Rothstein 2013, 62) Thus, the single most important steps Wisconsin policymakers could take to improve the education of Milwaukee stu- dents would be to make it easier for these children’s parents to obtain sufficiently well-paying jobs or to ensure a suffi- ciently robust safety net to enable their families to live decently. Unfortunately, as will be discussed later, many of the same corporate interests advancing education reform also support economic policies that make it more difficult for fam- ilies to pull themselves out of poverty. Of the things under the control of school officials, one of the most fundamental factors affecting education quality is class size. This is a fact that parents know intuitively, and it has been borne out by decades of research. The largest-scale EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 17 study of class-size impacts was Tennessee’s Student/Teacher Achievement Ratio (STAR) program, which concluded that students in smaller classes performed significantly better in both reading and math.13 Furthermore, although the exper- iment ended with third grade, the benefits of small classes continued at least through eighth grade (Molnar 1998).14 In the 20 years following STAR, a host of studies examined this question, reaching conclusions similar to those of the STAR experiment: Holding class size to 18 or fewer students in grades K–3 produces significant benefits in both read- ing and math, with the greatest impacts on nonwhite and low-income students (Center for Public Education n.d.).15 Smaller classes make such a profound difference because they change the fundamental dynamic between teachers and students in ways that are particularly important for children from poor and working-class families. As University of Colorado Research Professor Alex Molnar explains, in small classes: Children receive more individualized instruction. Teachers can focus more on direct instruction and less on classroom management. Students become more actively engaged in learning than peers in large classes. Teachers identify learning disabilities sooner, but fewer children end up going into special education classes because teachers can support them within small classes. Teachers are more able to give children from low-income families and communities a critical, supportive adult influ- ence. Teachers are better able to engage family members and to work with parents to further a child’s education. Teachers of small classes less often burn out. (Molnar 1998) Based on the recommendations of the Urban Initiative task force appointed by Wisconsin’s then–Superintendent of Public Instruction, John Benson, and organized by Molnar (then a professor at the University of Wisconsin-Milwau- kee), the Wisconsin legislature in 1995 established the Student Achievement Guarantee in Education (SAGE) program, which remains in effect today (Molnar and Zmrazek 1994). SAGE targets schools where at least 30 percent of students come from economically disadvantaged families. For these schools, SAGE provides approximately $2,000 per student to enable schools to limit classes to 18 students for kindergarten through third grades.16 An evaluation tracking students over the first five years of the SAGE program found that students in smaller classes outperformed otherwise comparable students in reading, language arts, and math, and that improvements were particularly dramatic for African American students (Smith, Molnar, and Zahorik 2003, 72–74). In addition to the measurable impact on student performance, teacher surveys showed that smaller class sizes produced a fundamental shift in how teachers conducted their classes, how well they got to know their students, and how well they could encourage children’s personal as well as intellectual development. A three-year study of teacher practice con- cluded that “much less time is spent in dealing with misbehavior in a small class. . . . Teachers [also] develop a greater knowledge and understanding of each child. . . . Because there is more time to interact with each child, teachers come to know the total child—his or her interests, habits, perspectives, strengths, weaknesses, and other characteristics. . .” (Zahorik, Molnar, and Smith 2003). Thus, for reasons that may or may not show up in test scores, education scholars have long held that the single most effective means of improving education is to significantly decrease class sizes. At Rocketship, there is one licensed teacher EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 18 for every 33 students (Rocketship Education 2011). Because one-quarter of the students are in the computer lab at any given time (where there are no licensed teachers), the remaining classrooms average approximately 25 students per class. Thus, while the company realizes significant financial gains from its use of technology, it does not use these funds to meet the SAGE-recommended standards, even for kindergarten through third graders. In Rocketship schools where fourth- and fifth-grade classrooms use the “flex” model, there are approximately 50 students per teacher. Furthermore, because even the younger children rotate throughout the day between two teachers and the computer lab, and because there is such high teacher turnover, it is harder to develop the deep personal student–teacher relationships that are tra- ditionally one of the benefits of small classes. Experienced teachers Individual teachers may be good or bad at any stage in their career. However, other things being equal, teachers—like most professionals—get better with practice. On average, teachers are at their peak performance when they have 20 years’ experience on the job. One study that examined the impact of teacher experience specifically in traditionally low- performing schools found that for 20 years, every additional year of teachers’ experience translates into statistically sig- nificant improvements in students’ educational achievement. After 20 years on the job, the impact of additional teacher experience on students becomes, on average, negative. However, this decline is sufficiently modest and gradual that a teacher with 30 years on the job still performs better than one with only 10 years’ experience (Huang 2009). Indeed, one of the longstanding problems of low-performing schools is precisely that they fail to retain experienced teachers.17 As explained earlier, inexperienced teachers and high turnover rates are keys ways Rocketship keeps costs low. While these policies minimize overhead, they come at the expense of children’s education. A broad curriculum and diverse opportunities for learning Test-based curricula tend to differentiate students only along one dimension: who scores higher than whom. But chil- dren differ not only in how much they learn, but in how they learn. When kindergartners and first-graders are first grappling with basic math concepts, some do well by practicing addition and subtraction problems, others by making and crossing off marks on paper, others by engaging in stories about quantities of things gained or lost, others by physi- cally manipulating sticks or blocks. Part of the task of any teacher is to determine which mode of learning is best suited to which children.18 The 2012 National Teacher of the Year explains how central diversity of learning strategies is to the work of teaching: I think what the best teachers are, are seekers. We are given a family’s . . . most precious resource, their child. And our job is to send them out better than when they walk through the door. And better doesn’t necessarily mean that they can ace a standardized test. Better means that I have seen deep within each child what his or her unique potential is. And so great teachers give assignments that are seeking to find that resource within each child. So, we will give activities that require . . . debating skills one day. And the next day, it will be a research skill, and the next day it will be artistic or musical because we’re looking for what each child’s native talent and capacity is, so that we can provide the education that that child needs and help him or her find her best path to success. (Mieliwocki 2012) EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 19 Indeed, part of the inspiration for many digital instruction applications is the hope that children will learn through a medium modeled on video games what they wouldn’t learn by sitting in a classroom with a teacher. And this may well be true for some students. The problem with online learning, however, is that it provides only one mode of learning and requires that all children use it. Six-year-olds who might learn math best by manipulating blocks have no choice but to sit, along with the rest of their class, and spend their hours in front of a computer screen. In this sense, online instruc- tion schools provide the opposite of the “individualization” that Rocketship trumpets as a hallmark of its innovation. Online programs allow for individualization only in the sense that one child can be ahead or behind another on the same digital trajectory. But in recognizing the different ways that children make sense of, assimilate, explore, develop, and express knowledge, digital programs allow no room for individuation. What’s missing from the tests The promoters of online learning assert that traditional schools lack for “objective” measures of education. Yet as one English teacher notes, “Every literate person assesses written language every day. We find arguments compelling, lyrics melancholy, jokes humorous. We can explain what makes a particular sentence resonate. . . . Although it is difficult to describe all the qualities that make a truly excellent piece of writing effective, it is not difficult to point to the flaws in a substandard piece of student writing” (Needell 2014). The grades assigned by teachers reflect professional judgment, not simply subjective preference. Indeed, research shows that the grades students receive in high school are better pre- dictors of college success than their scores on SAT or ACT exams (Maitre 2014; Hiss and Franks 2014). Furthermore, teachers’ evaluations reflect a much more comprehensive understanding of students than that captured in standardized tests. The 2011 National Teacher of the Year, for example, explains that her high school chemistry students “take an AP test at the end of the course. But . . . that test is just a three-hour snapshot. There are so many other things they are learning during the year – how to problem solve, how to work in a lab – that aren’t measured on the test. We also help students develop skills they need for life . . . things like a student’s ability to stick with a problem until it is solved. How do you test resilience?” (Shearer 2011). In all these ways, evaluation by experienced and talented teachers provides an assessment that is not only more accurate but more completely captures the process students are supposed to undergo in the classroom, and what it means to be educated. The only rationale for seeking to convert human activity to digitally measurable metrics, it seems, is to spend less on kids and earn more for investors. Ironically, many senior executives at the nation’s leading high-tech companies choose to send their own children to a Waldorf school, where the primary technologies are blackboards, chalk, and encyclopedias on bookshelves. One senior Google executive insists that small classes with in-person instruction are best for his daughter. “The idea that an app on an iPad can better teach my kids to read or do arithmetic, that’s ridiculous,” he explains (Richtel 2011). Indeed, while charter boosters often decry public schools as anachronisms of the industrial age, the principal at the school favored by so many Silicon Valley titans turns this assumption on its head: “Teaching to the test is . . . left over from the industrial age, an age of mass production,” she explains. “Technology is a tool. . . . Education is done human to human, not through a machine” (Rynas 2014). EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 20 A broad curriculum: Music, art, and playtime One of the critical attributes missing from test-focused education like that practiced by Rocketship is time devoted to artistic and musical pursuits. Parents commonly believe that art and music can be a valuable part of education, whether or not their impact is measurable in test scores. In fact, statistical research suggests that students enrolled in regular arts education perform better than their peers on standardized tests (Catterall 2002).19 Furthermore, while all students ben- efit from such education, the benefit is greatest for low-income students, who are less likely to have access to the arts outside of school (Deasy 2002). Beyond test scores, art and music provide avenues for personal development that privileged parents typically seek for their own children, but that are often denied to students from poor and working-class families. As former Arizona state superintendent Tom Horne notes, “When you think about the purposes of education, there are three. We’re preparing kids for jobs. We’re preparing them to be citizens. And we’re teaching them to be human beings who can enjoy the deeper forms of beauty. The third is as important as the other two” (Smith 2009). Another critical hole in the Rocketship curriculum is simple playtime. In the Milwaukee Rocketship school, while kids have recess, there is no in-class playtime—not even in kindergarten. For young children, play is an essential vehicle for both intellectual and emotional development. As the Alliance for Childhood reports, extensive research finds that “chil- dren who engage in complex forms of socio-dramatic play have greater language skills than nonplayers, better social skills, more empathy, more imagination, and more of the subtle capacity to know what others mean. They are less aggressive and show more self-control and higher levels of thinking” (Miller and Almon 2009, 7; see also Isenberg and Jalongo 2005, 46–51). Social and artistic playtime, outside of any academically directed activity, can also be critical in enabling young children to identify and manage their emotions, to understand and make sense of interpersonal dynam- ics, and—particularly for children who have witnessed violence or other forms of trauma—to process and work through their experiences (Wethington et al. 2008; Lawrence, De Silva, and Henley 2010; Hamblen and Barnett 2012). Libraries and librarians Finally, decades of research have shown that libraries and librarians are central to students’ educational achievement and intellectual growth. Rocketship schools have no libraries or certified librarians, nor do they accord them much value. “We don’t have librarians,” one executive recently explained, “but I don’t know that we have lost anything by that” (Haines, Voskuil, and Dilber 2014). Yet over the past 25 years, more than 30 studies have found that students’ edu- cation improves when schools have a full-time certified librarian (Kachel 2013).20 Furthermore, the benefit of librari- ans is greatest for black students, Latino students, those from poor families, and students with disabilities (Kachel and Lance 2013). A study looking specifically at Wisconsin found that performance on the Wisconsin Knowledge and Con- cepts Exam was significantly higher at schools with certified librarians than at those without, and significantly higher at schools with a full-time certified librarian than at those with only part-time staff (Smith 2006). Beyond their impact on test scores, libraries and librarians also provide students a broader type of education. Librarians help students find books they have never heard of but might like, and thus help make reading a pleasure rather than a chore. Librarians also direct students to sources that provide alternative views on what they have learned in class, thus providing the building blocks for critical analysis. In Wisconsin, EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 21 teachers and students report that school libraries . . . help students acquire unique skills that they do not learn in the classroom. [They] help students become information searchers, information reviewers and synthesizers. . . . [The] library . . . gives students the opportunity to evaluate the information . . . and assess the validity of what they have learned in class . . . by exposing the student to different sources of information beyond reliance on a single source: the textbook or the teacher. (Smith 2006) By eliminating librarians from their model, “blended learning,” test-focused charter schools like Rocketship deny stu- dents an essential opportunity to expand their imaginations, to discover reading-as-pleasure, and to develop a capacity to critically examine and assess information presented to them. The best schools in the world—and in Wisconsin The examples set by the best schools globally and in Wisconsin itself suggest that the narrowly focused, test-oriented charter school approach exemplified by Rocketship is precisely the wrong template. Additionally, the educational models of schools that privileged Americans choose for their children reinforce that broad curricula and small class sizes are key to helping children fulfill their potential. The Finland model Finland has long been widely regarded as having the best education system in the world, having regularly ranked at or near the top of international comparisons over the past decade (Taylor 2012). Since international comparison tests began in 2000, Finland has consistently been one of the top performers. In both 2006 and 2009, Finland ranked first in the world in international science tests.21 Remarkably, other than a final exam at the end of high school, no stan- dardized tests are administered in Finland, at any age or in any subject. Nor are there any state-mandated standards for specific outcomes students must achieve or specific curricula teachers must follow (Sahlberg 2010, 67, 88). Indeed, Finland’s education system is almost diametrically opposite of that being promoted by corporate lobbies in the United States, yet it has produced better-educated students. What is the key to Finland’s remarkable achievement? Finland provides all students with a broad curriculum that includes “arts, sports, music, and whole-person development” (Sahlberg 2010, 56). Needless to say, in none of these subjects have digital applications been substituted for personal instruction. In addition, the school system is built on high standards of teacher professionalism that guarantee teachers “the full range of professional autonomy to practice what they have been educated to do: to plan, teach, diagnose, exe- cute, and evaluate” (Sahlberg 2010, 76). In contrast, in 2013 Wisconsin legislators lowered teacher certification standards specifically for charter schools (State of Wisconsin 2013a). Modeled on ALEC legislation, this bill grants licenses to people who may have studied literature or biology, but have not spent a day mastering the pedagogy of how to teach these subjects.22 At Rocketship, executives dismiss the value of teacher education, preferring to rely on financial incentives and on-the-job training to push teachers to achieve the company’s goal of raising students’ math and reading scores by 1.5 grade levels for every year they attend school. “It’s not important to have a credential in a particular subject in order to be a) an expert in a field and b) a great teacher,” explains the company’s senior vice president. “The ultimate proof is if you can get one and one-half years of growth – if you can get that consistently, then you’re a kick ass teacher, and I don’t care where you went to college or if you went to college” (Haines, Voskuil, and Dilber 2014). EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 22 In contrast, all Finnish teachers must be certified with a university degree in education; for middle and high school, teachers generally cannot be employed without a master’s degree (Sahlberg 2010, 78). As one of the country’s top edu- cation officials explains, these students are not simply studying math or science itself, but are getting degrees in the pedagogy of how to teach math or science.23 Because the profession is treated with such respect, all of Finland’s school- teachers come from the top third of their college graduating classes; the comparable figure in the United States is only 23 percent (Heitin 2010). Along several dimensions, then, Finnish schools are almost the opposite of the test-centered, increasingly digital model being promoted by corporate lobbyists. Wisconsin’s best elementary schools Very few American schools have eliminated standardized tests. But in other ways, many of the country’s, and Wiscon- sin’s, best schools share certain features with Finland’s: a broad curriculum, appropriate support services, and classes taught in person by a staff of certified, veteran teachers who are empowered to develop creative curriculum. Table 3 shows Wisconsin’s top 10 elementary schools (School Digger 2014). Although these rankings are based on math and reading test scores, these schools embody a much broader definition of what it means to be educated. Indeed, these schools are strikingly different from the Rocketship online-instruction model being promoted for Milwaukee children. Because none of their classes are online, and because they do not rely on TFA recruits, there are more than twice as many licensed teachers per student at these schools as at Rocketship. Rocketship provides art activities only as “embedded” in language arts lessons, but has no dedicated art classes nor any certified art teachers; the school also provides no music education of any kind (Rocketship Milwaukee Public School 2014b). By contrast, all of the state’s top 10 elementary schools offer both music and art education, all provide libraries, all but one provide guidance counselors, and a majority offer foreign language instruction. Finally, the teaching staff is educated and experienced; it is not unusual for teachers in these schools to have graduate degrees in education. Where privileged parents send their children to school While there are decades of scholarly research pointing to the importance of small classes and broad curricula, there is a much simpler way to judge the value of these things: by observing which schools the country’s elite select for their own children. While these schools include technology, it is not used to substitute for teachers. On the contrary, Forbes magazine’s review of the country’s most elite school stresses that it is “tiny classes” and “individualized attention” that “help students earn their way into the best colleges” (Laneri 2010). Even those insisting on a stripped-down version of education as public policy choose something different for their own children. Thus, Chicago Mayor Rahm Emanuel—who famously fought with teachers over class size and test-based eval- uations—sends his children to the University of Chicago Lab School (Spielman 2011). The school has seven full-time art teachers and three libraries, and the school’s director, David Magill, writes that “world languages, libraries and the arts are not frills. They are an essential piece of a well-rounded education.” Further, Magill explains that his school does not evaluate teachers based on standardized tests: “[M]easuring outcomes through standardized testing and referring to those results as the evidence of learning and the bottom line is, in my opinion, misguided” (Elk 2012).24 EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 23 T A B L E 3 Characteristics of Wisconsin’s best elementary schools, as compared with Rocketship Education schools School District Students per licensed instructor Average teacher experience, years Art classes Music classes Foreign languages Library Guidance counselor Online classes Odyssey Appleton 14.2 10 Yes Yes Yes Yes No No Wauwatosa STEM Wauwatosa 13.3 N/A Yes Yes Yes Yes Yes No Lincoln Elementary Wauwatosa 13.3 15 Yes Yes Yes Yes Yes No Lannon Elementary Hamilton 12.1 10 Yes Yes No Yes Yes No Magee Elementary Kettle Moraine 15.1 15–20 Yes Yes No Yes Yes No Lake Country School Lake Country 12.8 N/A Yes Yes Yes Yes Yes No Shorewood Hills Madison 14.1 10+ Yes Yes Yes Yes Yes No Ace Charter School Neenah Joint SD 15.2 10 Yes Yes No Yes Yes No Marcy Elementary Hamilton 14.5 N/A Yes Yes No Yes Yes No Washington Elementary Wauwatosa 13.3 N/A Yes Yes Yes Yes Yes No Rocketship Education 33.3 Less than 5 No No No No No Yes Note: Students per licensed instructor are 2010–2011 district figures, with Rocketship serving as its own district. Schools that report having a psychologist and social worker on staff are considered to have a guidance counselor. Source: State of Wisconsin Department of Public Instruction (2013); Phillips (2014); Rocketship Milwaukee Public School (2014a) Indeed, although the Metropolitan Milwaukee Association of Commerce (MMAC) has been a vociferous booster of the Rocketship model of education, the hometown schools of MMAC’s leaders seem to be closer to Finland’s model than to Rocketship’s. MMAC Chairman Ted Kellner lives in Thiensville, where the local elementary school is Oriole Lane; MMAC President Tim Sheehy lives in Fox Point, where the local school is Stormonth Elementary. Both schools are ranked among the state’s highest performers. Both have approximately 15 students for every licensed teacher, or half the Rocketship ratio. Both offer a broad curriculum including music and art. Both have libraries and both have computer labs, but neither uses them to replace teachers with online instruction. At Stormonth Elementary in Mr. Sheehy’s home- town—but not at Rocketship—students even have the option of studying Spanish. Finally, both schools boast veteran teaching staffs, and identify these as part of the backbone of their success. An Oriole Lane administrator, for instance, boasts of having a “very stable teaching staff,” with 90 percent of teachers possessing master’s degrees. (Smith 2014; Oriole Lane Elementary n.d.; Stormonth Elementary n.d.) In October 2013, MMAC testified before the Wisconsin Senate in favor of a bill that would make it easier for compa- nies like Rocketship to add more schools in the city. MMAC Government Affairs Director Steve Baas insisted that the Senate must “[give] an opportunity to the best of the best, the top guns, to . . . [create] opportunities for top-quality EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 24 education” (Baas 2013a). Yet while Rocketship’s model may sometimes be touted as the gold standard in public debates, it appears that MMAC leaders implicitly recognize the value of a broader education. Privatizing education: Assessing Wisconsin’s proposed “school accountability” legislation Now that this report has evaluated the “blended learning” model of education exemplified by Rocketship and cham- pioned by MMAC and corporate-funded think tanks, it turns to an analysis of how the “school accountability” leg- islation debated during the most recent legislative session—which is largely modeled on proposals from these same parties—would likely affect Milwaukee schools. In Wisconsin as in the nation generally, the loudest voices demanding radical education reform did not come from either students or their parents, but from corporate lobbies. At least as far back as 2011, MMAC has called for creating a new kind of school district within the city—outside the control of the elected board or superintendent—that would recruit privately run charter schools to take over education of low-performing students (Richards 2011). In August 2013, MMAC hosted a private conference with select state and local policymakers to promote such a proposal (Richards 2013b).25 The MMAC proposal was largely based on a report issued several months earlier by the Wiscon- sin Policy Research Institute (WPRI), a member of the corporate-funded State Policy Network affiliated with ALEC, whose board of directors includes MMAC President Tim Sheehy (State Policy Network n.d.; Center for Media and Democracy 2013). The institute issued a full-blown blueprint for overhauling the city’s school system, entitled Pathway to Success for Milwaukee Schools (Kozak 2013). WPRI’s track record on education policy prescriptions does not necessarily inspire confidence. The organization once vigorously promoted school vouchers, issuing a publication in 1989 that touted vouchers as “the key to better schools,” which would lead to “higher student achievement” (Chubb and Moe 1989). Twenty-five years later, the organization admits that its prescription was misguided; while vouchers transformed the school system, they failed to improve edu- cation quality. A team of WPRI authors concedes that “Milwaukee is [now] filled with schools of all stripes. . . . Yet all of this activity has yet to deliver on its promise. . . . [T]he statistics tell a grim story” (Hess and Sattin-Bajaj 2013, 2–3). Today, WPRI calls for the elected school board and superintendent to relinquish control over education policy, and instead “humbly acknowledge that a marketplace of school operators will, over the long run, out-perform even the best direct-run system” (Kingsland 2013, 44–45). WPRI’s prescription here echoes the vision espoused by Rocketship backer Reed Hastings, who suggested that the role of school districts should be limited to “bringing to town more and more charter school networks, sort of like a Chamber of Commerce would to develop business” (Crotty 2012). The institute specifically calls for an increased focus on online instruction—whether in “blended learning” schools like Rocketship (which it dubs a “cutting edge hybrid school”), entirely virtual schools, or through vendors paid a prorated share of student funding for individual online courses (Kozak 2013, 17; Horn and Evans 2013, 21, 25). Perhaps unsurprisingly, WPRI’s own survey found that the public does not support its proposals: EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 25 The public . . . thinks the school district, not school principals, should make teacher hiring decisions. Less than half of the public supports the idea of students taking on-line classes. Moreover, the public is supportive of two institutions that education reformers have long had in their sights: the public school board and the teachers’ union. Finally, the only thing the Milwaukee public can coalesce around is spending more money. In Milwau- kee, the concept that more spending will fix what ails schools runs deep. (Kozak 2013, iv) Perhaps after 25 years of experience with vouchers and charter schools, one might conclude that Milwaukee residents actually know what they are talking about. Instead, what WPRI concludes is that “the public does not understand” what is needed, and pushes on with the corporate agenda for school reform (Kozak 2013, iv). Over the course of the 2013–2014 legislative session, lawmakers introduced a number of bills that took steps in the direction of the goals laid out by WPRI and supported by MMAC and other corporate lobbies.26 Although none of these bills became law, they likely point to the agenda for next year’s legislative debates. The most comprehensive plan for how Wisconsin might move toward the vision outlined by WPRI is embodied in a draft of Senate Bill 286 circulated by Education Committee Chair Luther Olsen in January 2014 (State of Wisconsin 2014a). Ultimately, this bill stalled—and was never formally introduced—due to internal dissension among GOP legis- lators and opposition from private school advocates, who objected to the proposed reporting requirements for voucher schools (Stein 2013). However, Senate Majority Leader Scott Fitzgerald has specifically suggested that the core elements of this draft may be revisited in the next legislative session (Wheeler News Service 2014). For these reasons, it is worth examining exactly how this proposal would affect Milwaukee’s schools. The bill essentially called for five reforms: 1) All schools in the state—public, charter, or voucher—would be graded on a scale of A–F based on four criteria: stu- dent test scores in math and reading, annual improvement in those test scores, attendance and graduation rates, and the extent to which the gap in test scores is narrowed between traditionally advantaged and disadvantaged students. Each of these four measures would account for 25 percent of a school’s grade. 2) Each year, the lowest-performing 5 percent of schools in the state must be given a grade of F regardless of their objec- tive performance. 3) Public schools graded F for three years in a row would be forced to close, and replaced with “high quality” charters, defined as schools whose student test scores for the past two years have been above the average of their surrounding district. Such charter schools must be privately run and cannot be set up by school districts or employ teachers who are district employees. 4) Grading would begin in 2015–2016, with the first sanctions possible in the 2018–2019 school year, except in Mil- waukee. Milwaukee schools that ranked in the bottom 5 percent of the state’s schools in 2013–2014 and 2014–2015 would be considered to start with two F’s on their record, with just one more leading to their closure. 5) Charter schools would have an eight-year grace period, and could not be closed until their ninth year of operation, no matter how many F’s they accrue.27 Chairman Olsen insisted that one of the key innovations in his bill was to address a major flaw in current school ranking systems: their failure to account for the relative wealth or poverty of different school populations. “You can’t get good EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 26 grades because you’re lucky to have a whole bunch of high-income students,” Olsen declared. “That’s not fair” (DeFour and Beck 2014). In response, Senate Bill 286 required that test scores and other measures of school performance be adjusted to account for a school’s racial and ethnic makeup, along with the percentage of students who are low-income, disabled, or English-language learners. Nevertheless, the bill is stacked in such a manner that guarantees the widespread closure of Milwaukee public schools and the expansion of privately run charters. First, while the new grading system is intended to avoid declaring schools “failing” simply because they serve poor chil- dren, many Milwaukee schools would start off with two F’s based on the old ranking system, which Olsen himself deemed unfair.28 Thus, Milwaukee schools are not only put on a faster timetable to closure than any other district in the state, they are also judged by a different standard. Second, the requirement to flunk 5 percent of schools every year would almost double the number of F’s handed out. In 2012–2013, only 58 Wisconsin schools were graded as failing. A mandatory 5 percent failure rate would increase this number to approximately 100 schools per year (Evers 2014). It is likely that many of these schools awarded F’s despite not actually failing would be located in Milwaukee. Third, the definition of “high quality” charters is written so as to promote the expansion of even low-performance char- ter schools, while blocking the replication of higher-performing public schools. Unlike the school performance mea- sures, this definition is not based on any accounting of race, disability, or poverty; thus, a charter school that selects a privileged population of students may be declared “high quality” simply on that basis. Moreover, the fact that a school scored above the Milwaukee district average in no way proves that it is uniquely equipped to address the needs of low-income students. In 2012–2013, a majority of the independent charter schools in Milwaukee failed to meet state expectations—the equivalent of receiving a D or F (Richards 2013c). Because the Milwaukee school district as a whole posted even lower scores (partly because the share of special education students in district schools is more than double that of private charters), many of these schools nevertheless outperformed the district average. This hardly makes them models for quality education, but under Sen. Olsen’s bill they would be declared “high quality” schools and encouraged to expand operations. This points to a particularly counterintuitive aspect of the bill. There are currently 30 traditional public schools within Milwaukee that meet Sen. Olsen’s definition of “high quality” (State of Wisconsin Department of Public Instruction 2014b). Why isn’t the remedy for low-performing public schools to require that they learn from, be guided by, or even be taken over by “high quality” public schools within the district? Indeed, eight of the district’s public schools produced academic growth that exceeded the average of all the privately run charter schools for each of the past two years (State of Wisconsin Department of Public Instruction 2014b).29 These schools, in particular, would seem models that the leg- islature might seek to emulate. For instance, the Academia de Lenguaje y Bellas Artes (ALBA) school is an enormously successful “instrumentality” charter school—a school chartered by the district, whose teachers are district employees. In 2013, People magazine named three of the teachers who co-founded the school as recipients of its “Teacher of the Year” award (Rubenstein 2013). In 2012–2013, ALBA’s state score for student academic growth was higher than that of every one of the non-district charter schools. Yet under Sen. Olsen’s bill, this school would be prohibited from opening another campus, while a privately run school that scored far worse would be promoted as a superior solution for the city’s students. EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 27 Fourth, the bill would provide privately run charter schools a unique eight-year grace period; even if they get F’s every year in a row, they cannot possibly be sanctioned until their ninth year of operation. By this time, their public school counterpart in Milwaukee would have been closed for seven years. Fifth, the bill fails to account for important differences in school population. For instance, there are an estimated 4,000 to 6,000 homeless children in Milwaukee, and when they are able to attend school they are virtually all enrolled in public schools. These students face a range of challenges that makes them likely to post lower scores and show less improvement over the course of an academic year. These challenges also make it harder and more expensive to do right by these children. Similarly, one of the impacts of poverty is that there is a very substantial number of Milwaukee stu- dents who move frequently and therefore switch schools from year to year, or even in the middle of the year. Among public schools in Milwaukee, nearly 30 percent of students change schools from one year to the next, and 15 percent of students change schools within any given school year (Milwaukee Public Schools 2011, 9). This degree of turnover in the student body creates problems for the students who switch schools and forces teachers to divert attention to inte- grating new students during the course of the school year. In middle and high schools, the Milwaukee school district also accommodates a significant number of students who are returning to school from some part of the criminal justice system. These students may enter a school at any point in the year, in need of extra support and attention. The public school system is required to educate every child, whereas private voucher or charter schools have substantial latitude in both admission and expulsion practices. Thus, all these students are most likely to be found in public schools. To not take these differences into account when grading school performance is to skew measurements against schools that carry the most difficult responsibilities. Finally, even where Senate Bill 286 states its intention to create a fair comparison between schools by accounting for dif- ferences in poverty and special education needs, it uses measures that fail to capture the real differences between schools. This is most pronounced in the bill’s method for taking into account inequalities of wealth and poverty—which Sen. Olsen agrees is critical—which relies simply on the percentage of students in each school who qualify for free or reduced- price lunch. Scholars have long noted the inadequacy of this standard as a measure of poverty, and have called for more detailed measures to capture the real differences between school districts (Baker 2011; Lubienski and Crane 2010). Stu- dents qualify for free lunches if their family income is below 130 percent of the federal poverty line; they qualify for reduced-price lunches if their families earn less than 185 percent of the federal poverty line. For the 2013–2014 school year, this meant that, in a family of four, children could receive free meals if their family earned less than $30,615 per year; they could receive reduced-price meals if they earned up to $43,568 (Federal Register 2013). Obviously, a family of four getting by on $43,568 faces daunting hardship, but there is a significant difference in the severity of hardship faced by these two sets of families. By lumping these two together as one category, lawmakers obscured great disparities in economic hardship. For instance, according to Wisconsin’s Department of Public Instruction, in 2012–2013, 83.5 percent of students in Milwaukee public schools qualified for free or reduced-price lunches, as shown in Figure E. By comparison, in the small town of Seneca, in rural Crawford County, 72.1 percent of schoolchildren qualified for free or reduced-price lunches. If we consider only this one measure, the two school systems appear to face broadly similar socioeconomic challenges. But if we look more deeply, there are striking discrepancies between the two. Most obviously, Seneca’s poverty is not on par with Milwaukee’s. In Seneca, 49.8 percent of students are eligible for free lunches, and another 22.3 percent come from modestly better-off families eligible only for reduced-price lunches. In Milwaukee, only 5.4 percent of students come EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 28 FIGURE E VIEW INTERACTIVE on epi.org Share of student population eligible for free or reduced-price lunch, Seneca and Milwaukee, 2012–2013 Source: State of Wisconsin Department of Public Instruction (2012) Seneca Milwaukee 0 100% 25 50 75 from families whose incomes qualify them for reduced-price lunches; 78.1 percent come from families that earn so little as to qualify for free lunches. Further, even separating out “free” from “reduced price” meal eligibility does not fully capture the economic differences that characterize distinct school districts. In Seneca, for instance, while almost half the students qualified for free lunches, only 24.2 percent lived in families that were below the poverty line in 2012–2013, as shown in Figure F. By contrast, 39 percent of Milwaukee’s students lived in families this poor.30 Finally, measuring poverty is only one end of the economic equation that accounts for differences in educational achievement. In wealthier communities, parents provide their children with a wide range of supports aimed at boosting educational achievement, including books, home computers, tutoring, after-school activities, travel, superior nutrition, medical care, libraries, and even assistance with homework from parents who themselves achieved higher education (Lubienski and Crane 2010). Just as the category of “free or reduced-price eligible” does not capture the great variation of hardship that different school districts face, the category of “not eligible for free or reduced-price lunch” does not capture the differences between modest working- or middle-class communities and those more privileged. The goal of any school “accountability” measure is to gauge the impact of a school’s educational program while holding everything else equal. To truly separate the impacts of economic inequality from those of teacher or school success, wealth and poverty must be measured more rigorously. Seneca 72% Milwaukee 84% EPI BRIEFING PAPER #375 | APRIL 24, 2014 PAGE 29 FIGURE F VIEW INTERACTIVE on epi.org Family income of student population eligible for free or reduced-price lunch, Seneca and Milwaukee, 2012–2013 Source: State of Wisconsin Department of Public Instruction (2012); U.S. Census Bureau (2012) 130%–185% of poverty line 100%–130% of poverty line Below poverty line Seneca Milwaukee 0 20 40 60 80 100%