eric.ed.gov har udgivet: While previous research has outlined factors that can be used to predict academic self-concept among college students, much of this research pays little attention to how self-concept develops differently for unique subgroups of students. This paper examines the development of mathematical self-concept during college for four groups of students who entered college with significantly different levels of math confidence: (1) men in math-intensive majors; (2) women in math-intensive majors; (3) men in non-math-intensive majors; and (4) women in non-math-intensive majors. Data are examined from surveys of over 14,000 college freshmen at 191 institutions who were followed up 4 years after college entry. Regression analyses describe how the factors contributing to the development of math self-concept differentiate among the four groups and suggest how women who persist in… Continue Reading →
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eric.ed.gov har udgivet: Throughout much of the world, boys continue to outscore girls on standardized mathematics tests. For example, in most of the 57 countries that participated in the Programme for International Student Assessment (PISA) 2006, boys’ performance was significantly higher than girls on the mathematics scale. This fact alone can harm girls’ opportunities for competitive scholarships and entry into top colleges, attitudes toward the subject matter and themselves, and participation in mathematics-oriented occupations. Intervention programs are equitable measures for addressing the needs of special populations. They can have successful results in bolstering the knowledge, dispositions, and participation of underrepresented groups in domains in which they are marginalized. In this article, the author describes a mathematics and technology intervention program for middle-grades girls. This description of the Northern Nevada Girls’… Continue Reading →
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eric.ed.gov har udgivet: This document presents the proceedings of the 17th Annual Research Forum held June 29, 2012, at Wake Forest University in Winston-Salem, North Carolina. Included herein are the following 25 action research papers: (1) “Reading and Writing”: A Study Comparing the Strengths of Peer Review and Visible Author Writing Strategies (Elizabeth Behar); (2) Project Based Learning: Is this New Method an Effective Educational Approach to Learning? (Camille Collier); (3) Building a Sense of Community in a High School Physics Class (Nick Corak); (4) Seeing Double: Visual Media and Expanding Definitions of Literacy in the English Classroom (John Randall Davis); (5) Improving Student Attitudes towards Science through Scientific Module Instruction (Carson V. Dobrin); (6) Web 2.0 in High School Social Studies: What Happens? (Kate Douglass); (7) Creative Expression in… Continue Reading →
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eric.ed.gov har udgivet: This is a handbook intended for use at a 1-day conference for 170 seventh and eighth grade girls, their parents, counselors, and math/science teachers. It is meant to stimulate interest in exploring career options in mathematics and science related areas. Sections included are: (1) “Introduction”; (2) “Conference Objectives”; (3) “Promotion/Recruitment”; (4) “Conference Day Format” (presenting the procedures and handout materials of the 1-day program); (5) “Recommendations–Do’s and Don’ts”; (6) “Follow-up Activities” (providing materials for the activities); and (7) “Resources” (listing media and organizations). (YP) Link til kilde
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eric.ed.gov har udgivet: This document contains the transcript of a senate hearing on the crisis in science and math education. The document includes the opening statements of Senators Glenn, Kohl, Bingaman, Lieberman, Heinz, and Sasser, and the testimony of seven witnesses including: Honorable Mark O. Hatfield, Senator from the State of Oregon; Carl Sagan, Ph.D. Cornell University; F. James Rutherford, American Association for the Advancement of Science; Bill G. Aldridge, National Science Teachers Association; Philip Uri Treisman, University of California at Berkeley; Betty M. Vetter, Commission on Professionals in Science and Technology; and Shirley M. Malcolm, American Association for the Advancement of Science. Appendices include the prepared statements of witnesses, pertinent articles, charts, and a statement from the National Society of Professional Engineers. (CW) Link til kilde
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eric.ed.gov har udgivet: Introduction: Many students with adventitious vision loss or progressive vision loss need to transition from print to braille as a primary literacy medium. It is important that this transition is handled efficiently so that the student can have continued access to a literacy medium and make progress in the core curriculum. For this study, we used constant time delay to teach literary braille contractions and Nemeth Code for Mathematics and Science Notation (hereafter, Nemeth Code) braille symbols to learners with visual impairments who were making the transition from print to braille. Methods: A single-subject, multiple-probe research design was used to test the effectiveness and efficiency of constant time delay to teach literary braille or Nemeth Code. Three female students, aged 13 to 15 years, participated at a… Continue Reading →
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eric.ed.gov har udgivet: Today, more women than in the past obtain degrees in science and engineering. However, women still remain underrepresented in science, technology, engineering, and mathematics (STEM). This study identifies whether the Engagement, Capacity, and Continuity (ECC) Trilogy could be utilized by teachers in technology and engineering program setting to examine their students’ interest (engagement), perceived personal capacity (capacity), and participation (continuity) in technology- and engineering-related activities. The ECC Trilogy provides a practical framework that can potentially assist teachers in identifying what factors create barriers to students wanting to become an engineer or pursuing a career in a technology- or engineering-related field. In order to identify where a lack of interest may occur, this study compares male and female middle school and high school students’ responses to STEM-related survey… Continue Reading →
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eric.ed.gov har udgivet: This paper addresses the personological aspects relative to male and female success in two subject areas (math and science) and addresses specific concerns in the area of mentoring. Personality factors operative for success in math and science are reviewed, and teachers are advised to encourage, support, and facilitate those personality traits which appear to augur for success. One particular technique for encouraging females to pursue their interests is mentoring. The need of the mentor to nurture, encourage, and develop certain salient personality traits is emphasized. Reasons why bright individuals (both females and males) do not succeed are listed, such as lack of product orientation and capitalizing on the wrong abilities. Guidelines are presented for mentoring creatively gifted youth. Mentors are urged to guide their female protegees to… Continue Reading →
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eric.ed.gov har udgivet: This survey of 316 Precalculus, Calculus AB, and Calculus BC students from markedly different socioeconomic levels in four district high schools in San Antonio, Texas, looked at factors that have traditionally caused women to avoid mathematics, and attempted to discover which of them continue to influence women’s decisions to reject the discipline. The questionnaire contained 25 questions based on assumptions drawn from literature on the subject. Reported and discussed are all differences in gender opinion above 9 percentage points, even though a difference of 11.4 percentage points would begin to indicate a statistically significant result. Findings where such differences occur showed that: (1) mathematics enrollment favored men, especially in BC Calculus; (2) female respondents more frequently perceived no bias in teacher expectations; (3) female students less frequently… Continue Reading →
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eric.ed.gov har udgivet: Females’ underperformance in mathematics is discussed as a function of negative expectancies by parents, teachers, and peers. These negative expectancies of significant others lead to negative self-expectancies and negative attitudes about mathematics on the part of female students. These negative expectancies and attitudes lead to lower performance, reinforcing parents’ and teachers’ negative expectancies. Thus a cycle of low expectancies leading to low performance leading to even lower expectancies is perpetuated. Some reasons this cycle persists are: (1) girls, more than boys, tend to believe that mathematical ability is something individuals either have or do not have; (2) girls are more math anxious than boys; (3) girls may believe that “girls just cannot do math”; (4) girls’ belief that their ability is so low that no amount of… Continue Reading →
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