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1.
Teachers can perpetuate stereotypic cultural beliefs regarding girls' ability in, aptitude for, and suitability for science by their teaching practices and behaviors. As teachers have a major influence on girls' career choices their equitable teaching practices in the classroom are important to encourage all students, but especially girls, to continue with science. Researchers have studied science classrooms and have defined common strategies and practices that can help create an equitable classroom environment. The purpose of this study was to determine if high school biology student teachers could transfer learned equitable teaching strategies to actual teaching and the support conditions necessary for that transfer. Two support conditions were assessed: cooperating teacher and peer group support. Seven preservice teachers were placed into three groups. One group had both support conditions, the second group had only one condition (peer support), and the third group did not have either support condition. Both qualitative and quantitative data sources were collected. Results showed that preservice teachers could transfer learned equitable teaching into actual teaching practice. However, they were more successful in achieving the transfer if they were supervised by cooperating teachers who are sensitized to the issue of gender equity in education. Being involved in a peer support group was not as crucial to using the strategies as having a supportive cooperative teacher. 相似文献
2.
Efforts to ameliorate gender disparity in pursuit of science careers in the USA have focused on equalizing girls' participation in pre-college science courses and out-of-school activities. Our examination of nearly 1500 US college students at 16 universities found that gender and preparation both have an impact on success in introductory college physics courses. In terminal, algebra-based physics females perform better than their male classmates. However, in calculus based introductory college physics courses, which are prerequisite to advanced study in many fields, women do significantly worse than their male counterparts with the same background. For both genders, taking a high school course that limits coverage and concentrates more time in in-depth study is associated with better performance in college physics. We conclude that efforts to ensure the success of women entering the physical sciences should concentrate on increasing the depth and reducing the vast coverage of most high school physics courses as well as addressing the apparent bias in college courses that mark the first step in careers within scientific research and engineering. 相似文献
3.
Else‐Marie Staberg 《Gender and education》1994,6(1):35-46
This study investigates how Swedish pupils meet chemistry, physics and technology in compulsory school. It explores girls' and boys' actions in and thoughts about these subjects during grades 7 to 9. The pupils come from different worlds determined by gender and social background. In the classroom girls are given, and take upon themselves, the role of keeping lessons together, while boys' attempts to dominate the public arena create disorder. Girls and boys prefer different subject areas. Boys have a practical while girls have a more theoretical approach to science. Girls seek ‘connected knowledge’, and even the successful girls question their understanding. Girls who take an interest in physics and chemistry often have supporting scientist fathers or at least parents with a higher education. Technology is rejected by all girls. The mutual construction and reconstruction of gender and of science/technology contribute to gendered choices of study programmes in upper secondary school. 相似文献
4.
《Chinese Education & Society》2013,46(3):43-54
The junior middle school phase is one in which students first come into formal contact with science subjects and is a key period in the formation of their attitudes toward the sciences. Any setback in science studies in this period inevitably affects the students' studies in the senior middle school phase and even their future choice of specializations and the direction of their career development. Thus science education during the junior middle school phase is of the utmost importance for the students' growth. Studies by scholars abroad show that the great majority of girls have the same intelligence and ambitions as boys when they enter school, but by the time they graduate from junior and senior middle schools they have much less confidence in their abilities and their self-esteem has conspicuously declined. There is also a big difference between boys and girls in terms of their choice of advancement to higher schools, and a relatively small proportion of girls choose to take science courses in senior middle school. In terms of choice of vocations, most girls remain stuck in the narrow field of traditional occupations for females, such as nursing, health care, and secretarial work, and display a clear tendency toward job gender patternization. The rate of school dropouts and discontinued schooling is much higher among girls than boys.1 Studies by scholars in China show that stereotyped gender impressions among teachers leads to incorrect conduct in education and teaching. For instance, teachers believe that boys are more clever. They make different dispositions for girls' and boys' learning activities, and lavish more attention on boys. Such different feedback to learning information [sic] from boys and girls widens the difference between students of different genders.2 相似文献
5.
Elaine Virginia Howes 《科学教学研究杂志》1998,35(8):877-896
In this article, I explore how a dozen high-school sophomore girls expressed their relationship to and understanding of prenatal testing, and its possible place in their lives and in the lives of others, in the context of a short unit on prenatal testing during a semester-long course in human genetics. The data come from an assignment designed to help students bring their understanding of prenatal testing into the realm of personal choice, as well as practice applying the science of chromosomal inheritance. Difference feminism is used to develop themes evident in these girls' talk about prenatal testing. The instructional choices made were based on difference feminism, which implies that girls would be interested in science that connects to human bodies, children, and traditional women's responsibilities. This claim is elaborated on and applied by this study, in which I concentrate on the question: How can difference feminism help us better to hear and comprehend high school girls' relationships with reproductive technology, their own bodies, and their own lives? I propose that focusing on girls' lives and knowledge is a way to consider alternatives in curricular content, in addition to helping us learn how to help more girls connect with science. © 1998 John Wiley & Sons, Inc. J Res Sci Teach 35: 877–896, 1998. 相似文献
6.
Shelley Peterson 《Gender and education》2002,14(4):351-366
This study examined the ways in which gender influences students' choices in their classroom writing. Data sources included the students' writing, small group conversations, classroom observations, and interviews with teachers. For the most part, students attempted to maintain a widely recognized gender order in their talk about girls' and boys' writing. The students' writing choices were constrained or extended by the range of discourses available to construct their gender and literate identities. The boys generally positioned themselves within powerful hegemonic masculine discourses. Some boys, however, wrote about relationships between male friends within competitive environments. Taking up the more powerful masculine discourses, some girls wrote about personal experiences playing team sports. Students made one boy aware that he had positioned himself as incompetent within the social order when he wrote about a gay character. 相似文献
7.
In order to change the attitude of early adolescent female and male students toward scientists and women in science, students in the middle school/junior high grades were exposed over a two months' period to women science career role models as part of their science instruction. This treatment positively affected the students' attitude toward scientists and toward women in science. It is suggested that teachers of science in the middle school/junior high should periodically bring community resource people who use science in their careers to the classroom to act as role models and that women should be included among this group so that the attitudes of both male and female students toward scientists and women in science might be improved. 相似文献
8.
A view of science as a culturally‐mediated way of thinking and knowing suggests that learning can be defined as engagement with scientific practices. How students engage in school science is influenced by whether and how students view themselves and whether or not they are the kind of person who engages in science. It is therefore crucial to understand students' identities and how they do or do not overlap with school science identities. In this paper, we describe four middle school African American girls' engagement with science. They were selected in the 7th grade because they expressed a fondness for science in school or because they had science‐related hobbies outside of school. The data were collected from the following sources: interviews of students, their parents and their teachers; observations in science classes; journal writing; and focus groups. These girls' stories provide us with a better understanding of the variety of ways girls choose to engage in science and how this engagement is shaped by their views of what kind of girl they are. © 2000 John Wiley & Sons, Inc. J Res Sci Teach 37: 441–458, 2000. 相似文献
9.
A conceptual framework of positions on women in science, engineering, and technology (SET) was developed, showing a chronological progression of the main approaches to women's underrepresentation in SET during the past 20 years. Numerous initiatives have been advocated to address women's underrepresentation in SET in higher education. This article arose out of one such initiative, Winning Women, which was intended to help higher education in Scotland move toward good practice in this field. Two members of the project team describe their key findings and experiences. They illustrate how the underrepresentation of women in SET continues to be both progressive and persistent (using an SET parity index). The conceptual framework was conceived and developed from a metaanalysis of feminist theories of the gendered politics of science and technology. © 1999 John Wiley & Sons, Inc. J Res Sci Teach 36: 637–661, 1999 相似文献
10.
This study investigated gender inequality in biology lessons and analysed the effects of the observed inequality on students' short-term knowledge achievement, situational interest and students' evaluation of teaching (SET). Twenty-two biology teachers and 803 7th-grade students from rural and urban classrooms in China participated in the study. Each teacher was videotaped for 1 lesson on the topic blood and circulatory system. Before and after the lessons, the students completed tests and questionnaires. Chi-square analysis was conducted to compare the boys' and girls' participation rates of answering teachers' questions in the lessons. The findings revealed that in the urban classrooms the boys had a significantly higher rate of participation than did the girls, and hence also a higher situational interest. However, no such gender inequity was found among the rural students. The study also revealed that urban students answered more complicated questions compared with the rural students in general. The findings of this study suggest that the teachers should try to balance boys' and girls' participation and involve more students in answering questions in their lessons. The study also raises questions about long-term effects of students' participation in answering teachers' questions on their outcomes-knowledge achievement, situational interest and SET. 相似文献
11.
12.
The purpose of this longitudinal case study is to describe the educational trajectories of a sample of 152 young women from urban, low‐income, single‐parent families who participated in the Women in Natural Sciences (WINS) program during high school. Utilizing data drawn from program records, surveys, and interviews, this study also attempts to determine how the program affected the participants' educational and career choices to provide insight into the role informal science education programs play in increasing the participation of women and minorities in science, math, engineering, and technology (SMET)‐related fields. Findings revealed 109 participants (93.16%) enrolled in a college program following high school completion. Careers in medical or health‐related fields followed by careers in SMET emerged as the highest ranking career paths with 24 students (23.76%) and 21 students (20.79%), respectively, employed in or pursuing careers in these areas. The majority of participants perceived having staff to talk to, the job skills learned, and having the museum as a safe place to go as having influenced their educational and career decisions. These findings reflect the need for continued support of informal science education programs for urban girls and at‐risk youth. © 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 835–860, 2004 相似文献
13.
Marcel Helbig 《British Journal of Sociology of Education》2012,33(5):661-677
The prevalence of women in the teaching profession has been claimed by various scholars to be responsible for the low school performance among boys. Based on this claim there have been widespread calls for increasing the share of male teachers as a means of improving boys' school performance. There is, however, very little empirical evidence supporting the claim that boys do in fact benefit from being taught by male teachers. Drawing on data from the 2007 Trends in International Mathematics and Science Study and the 2006 Progress in International Reading Literacy Study, this paper examines the relationship between teacher gender and boys' and girls' respective school performance in a sample of 146,315 elementary school students from 21 countries. It finds that boys do not benefit from being taught by male teachers, neither in mathematics nor in reading. In some countries, however, girls seem to profit from being taught by female teachers. 相似文献
14.
The purpose of this study was to try to determine what influences girls to choose science. Forty girls were interviewed in Grades 2, 5, 8, 11 using a semistructured protocol. The interview focused on feelings about science, science careers, peer and parental support, and how science is taught. To determine whether their responses were based on gender, each girl was asked to respond to questions as if she were a boy. The girls were highly self-confident and positive about science. All of the girls took a strong equity position and asserted that women can and should do science. The girls liked learning science in an interactive social context rather than participating in activities that isolated them such as independent reading, writing, or note taking. Those who chose science careers were drawn to them because of strong affective experiences with a loved one and a desire to help. The interviews were analyzed through the framework of women's affective and psychological needs. 相似文献
15.
Shannon Gilmartin Nida Denson Erika Li Alyssa Bryant Pamela Aschbacher 《科学教学研究杂志》2007,44(7):980-1009
To examine how school characteristics are tied to science and engineering views and aspirations of students who are underrepresented in science and engineering fields, this mixed‐methods study explores relationships between aspects of students' science identities, and the representation of women among high school science teachers. Quantitative analyses tested the hypothesis that percent female faculty would have a positive effect on girls' science interests, and perceptions in particular, given the potentially greater availability of women role models. Findings indicate that percent female science faculty does not have an effect on a range of science measures for both male and female students, including the ways in which they understand scientific practice, their science self‐concept, and their interest in science‐related college majors. As qualitative data demonstrate, this could reflect practical constraints at schools where female faculty are concentrated and narrow perceptions of science teachers and “real” science. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 44: 980–1009, 2007 相似文献
16.
Stephanie Holmes Adrienne Redmond Julie Thomas Karen High 《Mentoring & Tutoring: Partnership in Learning》2013,21(1):137-150
Current data suggest fewer females than males continue to be interested in engineering and that this gender gap is first evidenced during middle school years. One might expect that female engineering role models would encourage adolescent girls to pursue future careers in engineering and thereby increase the girls’ interests in and attitudes towards science and mathematics. This study sought to correlate middle school girls’ overall confidence in science and mathematics with a year-long, afterschool mentoring program led by female engineering students from a local university. The results demonstrated that there was a significant correlation between the quality of the mentoring relationship and the girls’ confidence in mathematics. The relationship between female role models and young girls’ attitudes toward science and mathematics is discussed. 相似文献
17.
Pam Nilan 《Asia Pacific Journal of Education》2009,29(1):29-43
This paper examines aspects of the school-to-work transition process for high-achieving indigenous Fijian young women using selective data from a wider study of school-to-work transitions conducted in 2005. It appears that traditional and colonial understandings of the role of Fijian women still shape even high-achieving girls' career and life options; these are expressed through their subject choices at school and their narrow career aspirations. While the social reproduction mechanisms of schools are evident, families and communities are also implicated. High-achieving girls still tend to emulate the career choices of older women in their families and communities, even in the current context of a marked lessening of labour market opportunities for the time-honoured “white-collar” occupations of teaching, nursing and public service work. Some provisional interpretations, looking towards productive interventions at school, community and church level, of this phenomenon are offered. 相似文献
18.
How the girl choosing technology became the symbol of the non-traditional pupil's choice in Sweden 总被引:1,自引:1,他引:0
Maria Hedlin 《Gender and education》2011,23(4):447-459
The purpose of this article is to elucidate how the girl who chooses technology came to be the symbol of the non-traditional pupil's choice in Sweden. In the early 1960s it was hoped that girls would enter workshop training and then commit themselves to engineering mechanics jobs at a time when Sweden was characterised by economic growth which was expected to lead to labour shortage. However, the problems and the resistance against women in the workshops were rarely discussed. One possible explanation for not addressing the obstacles that the girls risked facing is that great hopes were attached to changing gender roles. The major school reform that was about to be launched was also expected to lead to more equal educational choices. In addition, girls' choices were associated with tradition and an outmoded society. The female mechanic or industrial worker came to be seen as a symbol of modern Sweden. 相似文献
19.
《International Journal of Educational Development》2000,20(1):29-47
This paper attempts to do three things: first to provide an argument for acknowledging and using the cultural dimension in educational development; second to put the case for a culturally more appropriate research methodology; and third to address the issue of access and gender in schooling within a cultural framework.Using predominantly life history interviews with women teachers and girls in and out of school, the research identifies three domains of enquiry: the home, economy and school, where problems and solutions of girls' access to schooling are to be found. It concludes with implications for policy makers at national and local level. 相似文献
20.
This paper describes research into teachers' perceptions of technology education carried out as part of the Learning in Technology
Education Project. Thirty primary and secondary school teachers were interviewed. Secondary teachers interpreted technology
education in terms of their subject subcultures as did some primary teachers. The primary teachers were also influenced by
current initiatives, outside school interests and teaching programs.
Specializations: investigations in science, science and technology education.
Specializations: learning theories, history and philosophy of science, chemical education. 相似文献