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SucceSSful K–12 STeM educaTion GOALS FOR U.S. STEM EDUCATION Q uestions about effectiveness can be addressed only in the context of the pur- poses or goals one wants to measure. Three broad and widely espoused goals for K-12 STEM education in the United States capture the breadth of the purposes for STEM education and reflect the types of intellectual capital needed for the nation’s growth and development in an increasingly science- and technology- driven world. These goals are to increase advanced training and careers in STEM fields, to expand the STEM-capable workforce, and to increase scientific literacy among the general public.13 These three goals are not mutually exclusive. Moreover, because they are broad long-term goals for STEM education in the United States, numerous intermediate goals are encompassed in and central to all of them. Among others, the intermediate goals include learning STEM content and practices, developing positive dispositions toward STEM, and preparing students to be lifelong learners.14 GOAL 1: Expand the number of students who ultimately pursue advanced degrees and careers in STEM fields and broaden the participation of women and minorities in those fields. During the past century, the STEM fields propelled the United States to the forefront of an innovation-based global economy. Indeed, more than half of the tremendous growth to per capita income in the 20th century can be accounted for by U.S. advances in science and tech- nology.15 Several reports have drawn a direct line between the nation’s competitiveness and K-12 STEM education to support the next generation of scientists and innovators.16 Thus, one goal for STEM education focuses on the flow of students into STEM majors and careers. An important dimension of this goal is to increase the par- ticipation of groups that are underrepresented in the sciences, especially blacks, Hispanics, and low-income students who “disproportionately fall out of the high-achieving group” in K-12 education.17 It is important to provide opportunities for highly talented students from these groups because “changing immigration patterns, the rapid improvement of education and economies in developing countries, and a heavy focus on talent development—and compe- tition for the talented—in both developing and devel- oped countries [have] drastically changed the playing field for American education.”18 Indeed, only 10 percent of all STEM doctorates are awarded to nonwhite, non- Asian students, although these groups now represent one-quarter of the U.S. population.19 The changing demographics in the United States will require increased 4

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SucceSSful K–12 STeM educaTion participation by domestic nonwhite and non-Asian students in STEM. Efforts in K-12 to serve these groups will play a major role in addressing this crucial issue. GOAL 2: Expand the STEM-capable workforce and broaden the participation of women and minorities in that workforce. Although there is a clear need to increase the number of students who obtain advanced degrees in the STEM disciplines, it is equally important to the U.S. economy to increase the number of people who are prepared for STEM-related careers, such as being K-12 teachers in the STEM disciplines, medical assistants, nurses, and computer and green energy tech- nicians.20 These careers generally require vocational certification with specialized STEM knowl- edge, an associate degree, or a baccalaureate degree with a major in a STEM field.21 The current demand for STEM-capable workers surpasses the supply of applicants who have trained for those careers. Moreover, 16 of the 20 occupations with the largest projected growth in the next decade are STEM related, but only 4 of them require an advanced degree.22 Given these unmet needs for a STEM-capable workforce, the nation’s economic future depends on preparing more K-12 students to enter these fields. GOAL 3: Increase STEM literacy for all students, including those who do not pursue STEM-related careers or additional study in the STEM disciplines. Personal and societal decisions in the 21st century increasingly require scientific and technological understanding. Whether about health, the environment, or technology, a certain level of scien- tific knowledge is vital to informed decision making. Thus, another goal of STEM education is to increase STEM literacy—defined as the knowledge and understanding of scientific and mathemati- cal concepts and processes required for personal decision making, participation in civic and cultural affairs, and economic productivity for all students. 23 Targeting all students, not just those who will pursue postsecondary education or careers in STEM or STEM-related fields, will better prepare citizens to face the challenges of a science- and technology-driven society. Schools and districts might not consciously adopt and work toward these three broad goals for STEM education. Instead, they may have their own, intermediate goals for success, such as increased enrollment in STEM courses, achievement test scores, high school graduation rates, college or career readiness, and matriculation into postsecondary institutions. Scientific research provides little evidence about how to accomplish the three broad goals. Research is even limited with respect to the intermediate goals, including goals related to accountability, when success is often measured at the school or district level. 5