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1.
Both academic self-concept and interest are considered domain-specific constructs. Previous research has not yet explored how the composition of the courses affects the domain-specificity of these constructs. Using data from a large-scale study in Germany, we compared ninth-grade students who were taught science as an integrated subject with students who were taught biology, chemistry, and physics separately with regard to the dimensional structure of their self-concepts and interests. Whereas the structure of the constructs was six-dimensional in both groups (self-concept and interest factors for biology, chemistry, and physics), the correlations between the domain-specific factors were higher in the integrated group. Furthermore, the pattern of gender differences differed across groups. Whereas male students generally showed higher self-concept and interest in physics and chemistry, a small advantage for male students in biology was only present in integrated science teaching group. We conclude that aspects of the learning environment such as course composition may affect the dimensional structure of motivational constructs.  相似文献   

2.

Drawing on a number of studies, this paper explores gender differentials in the choice of science subjects at secondary school level, factors influencing choice, differences in achievement and recruitment to science courses at a higher level in the particular educational context of the Maltese Islands. In this context all secondary schools are single‐sex, the state system is highly centralized, selection and streaming are widely practised, a high proportion of students (25%) attend private schools, and physics is compulsory. The results show that: more girls than boys study physics and biology at the lower secondary level (ages 11‐16); more boys study chemistry; achievement at this level is on a par in biology and chemistry; girls achieve slightly lower in physics. At the upper secondary level (ages 16‐18), almost equal numbers of boys and girls study biology and chemistry but boys predominate in physics. Girls avoid the option of physics and mathematics, a popular choice with boys. Consequently, at tertiary level very few girls opt for courses in engineering and prefer to subscribe to courses relating to medicine.  相似文献   

3.
Gendered patterns in mathematics and science interest emerge in early childhood, develop over time, and ultimately reflect advanced course selection in secondary education. During the crucial time adolescents become aware of their strengths and interests and specialize accordingly, they get the opportunity to participate in out-of-school learning programs such as mathematics and science competitions. This raises the question whether mathematics and science competitions contribute to gender equity by equally promoting female and male interests. In this article, we present a systematic review on gender differences and the mechanisms explaining success and failure in mathematics and science competitions. On an international level, we found large gender differences regarding participation in all Olympiads with the exception of the biology Olympiad. In fairs and national Olympiads, overall participation rates were not gendered as such, but females preferred biology topics whereas males preferred physics related topics. Male and female achievement in fairs was comparable, but males clearly outperformed female participants at the Olympiads, with the smallest differences in the biology Olympiad. Variables and theoretical frameworks explaining participation and achievement and the role of gender in mathematics and science competitions are discussed. We suggest that gender stereotypes, through their influence on self-concept and interest, play an important role in the mechanisms resulting in low female participation rates in and beyond mathematics and science competitions (especially in physics and chemistry). The mechanisms we found explaining female representation during a national selection competition might be considered as reflecting those in female mathematics or science careers and could thus serve as food for thought on countering the gender gap in mathematics and science.  相似文献   

4.
The self-efficacy of prospective primary teachers was studied, considering in particular the relationship of that construct with the emotions they expect to experience as future science teachers, differentiating between when they will be teaching the content of the ‘nature sciences’ (biology and geology) and that of the ‘hard sciences’ (physics and chemistry). The study instrument was a questionnaire completed by 188 prospective primary school teachers in their initial education at the University of Extremadura during the academic year 2009/2010. The results showed them to mostly have positive emotions towards nature sciences and negative towards the hard sciences. While their beliefs concerning their self-efficacy are significantly related to their emotions about their future teaching of the hard sciences, high self-efficacy was significantly correlated with more positive emotions and fewer negative emotions towards physics and chemistry.  相似文献   

5.
Pupil research in school lessons in the sense of Inquiry-Based Education (IBE) is one of the constructivist approaches to education. Inquiry strengthens the positive approach of pupils to natural science subjects, encouraging them to study phenomena and processes taking place in the natural environment around them and use the acquired knowledge in their practical life. Geography as a school subject, due to the multidisciplinary nature of geography as a science, is close to natural sciences as well. This is because of the broadness of the subject of geographical studies, the complex (natural and cultural) landscape. The close links of geography to all cross-sectional themes make it a good support for teaching classical science subjects at schools such as mathematics, physics, chemistry or biology, environmental education. Moreover, the field teaching is one of the strong assets of the implementation of IBE in the school geography. Presented case study on the ‘effect of noise on the surroundings’ explores the facts mentioned above, in geography teaching. It verifies the pupils’ knowledge and skills to adopt the basic principles of IBE in the practice. At the same time, it presents the concrete experiences how the children master the individual stages of IBE during the process of education.  相似文献   

6.
This paper describes patterns of participation and attainment in A‐level physics, chemistry and biology from 1961 to 2009. The A level has long been seen as an important gateway qualification for higher level study, particularly in the sciences. This long‐term overview examines how recruitment to these three subjects has changed in the context of numerous policies and initiatives that seek to retain more young people in the sciences. The results show that recruitment to the pure sciences has stagnated, general trends have hardly varied and the track record of government policy in influencing change is not strong. There is no evidence for increasing achievement gaps between the sexes at A level and even national policy requiring that all young people study science up to the age of 16 appears to have had little impact on recruitment at this level.  相似文献   

7.
We discuss the eight papers in this issue of Cultural Studies of Science Education focusing on the debate over conceptual change in science education and explore the issues that have emerged for us as we consider how conceptual change research relates to our practice as science educators. In presenting our interpretations of this research, we consider the role of participants in the research process and contextual factors in conducting research on science conceptions, and draw implications for the teaching of science.
Christina SiryEmail:
Christina Siry   is a PhD student in the Urban Education program of the City University of New York, and an instructor at Manhattanville College. Her research interests focus on pre-service and in-service preparation for the teaching of science and she is currently researching the use of coteaching and cogenerative dialogue in elementary teacher preparation for the teaching of science. In particular, she is exploring the role that shared, supported teaching experiences can have in the construction of new teacher identity and solidarity. She has worked as an elementary science specialist teaching children in grades K-5, and in museum settings developing science programs for teachers and children. In addition to the position at Manhattanville College, Chris is a lecturer in the University of Pennsylvania’s Science Teacher Institute where she teaches science pedagogy to middle school teachers. Gail Horowitz   is an instructor of chemistry at Yeshiva University, and a doctoral candidate in science education at Teachers College. For many years, she has been involved in research and curricular design within the organic chemistry laboratory setting, focusing specifically on the design of discovery or puzzle based experiments. Her doctoral research focuses on the intrinsic motivation of pre-med students. She is interested in trying to characterize and describe the academic goal orientations of pre-med students, and is interested in exploring how the curricular elements embedded in project based laboratory curricula may or may not serve to enhance their intrinsic motivation. Femi S. Otulaja   is currently a PhD student and an adjunct professor of science teacher education at Queens College of the City University of New York. As a science teacher educator, his research interests focus on the use of cogenerative dialoguing and its residuals, such as coteaching, distributed leadership, culturally responsive pedagogy, as research and pedagogical tools for engaging, training and apprenticing urban middle and high schools pre- and in-service science teachers as legitimate peripheral participants. He also encourages the use of these modalities as assessment, evaluation and professional development tools for teaching and learning science and for realigning cultural misalignments in urban classrooms. His theoretical framework consists of a bricolage of participatory action research, constructivism, critical ethnography, cultural sociology, sociology of emotions, indigenous epistemology, culturally responsive pedagogy, critical pedagogy and conversation analyses. In addition, he advocates the use of technologies as assistive tools in teaching science. Nicole Gillespie   is a Senior Program Officer at the Knowles Science Teaching Foundation (KSTF). She is a former naval officer and high school physics teacher. Nicole received her PhD in science education from the University of California, Berkeley in 2004 where she was supported by a Spencer Dissertation Fellowship. She worked with the Physics Education Group at the University of Washington and conducted research on students’ intuitive ideas about force and model-based reasoning and argumentation among undergraduate physics students at Berkeley. In addition to her work at KSTF, Nicole is an instructor in the University of Pennsylvania’s Science Teacher Institute. Ashraf Shady   is a PhD candidate in the Urban Education program at the City University of New York Graduate Center; his strand of concentration is science, math, and technology. In his research he is currently using theoretical frameworks from cultural sociology and the sociology of emotion to examine how learning and teaching of science are enacted when students and their teachers are able to co-participate in culturally adaptive ways and use their social and symbolic capital successfully. His research interests focus on the use of cogenerative dialogues as a methodology to navigate cultural fields in urban education. Central to his philosophy as a science educator is the notion that teaching is a form of cultural enactment. As such, teaching, and learning are regarded as cultural production, reproduction, and transformation. This triple dialectic affirms that elements of culture are associated with the sociocultural backgrounds of participating stakeholders. Line A. Augustin   received her doctorate degree in Chemistry (with a chapter of her dissertation on a case study of enactment of chemical knowledge of a high school student) and did a post-doc on Science Education at the Graduate Center, CUNY. She is currently teaching science content and methods courses in the Elementary and Early Childhood Education Department of Queens College, CUNY. She is interesting in investigating how racial, cultural, class and gender issues affect the ways that teaching and learning occurs in elementary classrooms, in understanding these issues and developing mechanism by which they can be utilized to promote better teaching and learning environment and greater dispositions towards science. She is also interested in what influences science teachers to change and/or to improve their teaching practices.  相似文献   

8.
In this article Susan Gebbels and Stewart M. Evans from Newcastle University and Lynne A. Murphy who is a practising school teacher in north‐east England discuss how they worked collaboratively on a programme of science education with a group of 16 Key Stage 3 pupils with moderate learning difficulties. The project lasted for one academic year and was part of Creative Partnerships, the Government's flagship creative learning programme. The authors describe some of the challenges faced by teachers to cater for the needs of all pupils within an inclusive school setting. The programme of science education focused on local marine and coastal environments with a special emphasis on fieldwork, enquiry‐based learning and cross‐curricular approaches to learning. The project was evaluated through the use of questionnaires, pupil interviews and informal discussions with teaching staff. Evaluations of the programme were positive. Pupils were more motivated to learn about science, had a sense of pride in their achievements and claimed that participation in the project helped them in forming friendships. The class published and distributed an information booklet on the coast to other schools and the general public.  相似文献   

9.
Sex is considered to be one of the most significant factors influencing attitudes towards science. However, the so-called brain type approach from cognitive science suggests that the difference in motivation to learn science does not primarily differentiate the girls from the boys, but rather the so-called systemisers from the empathizers. The present study investigates this hypothesis by using structural equation modelling on a sex-stratified sample of 500 male and female students of secondary II level. The results show, that the motivation to learn science is directly influenced by the systemizing quotient SQ, but not by sex. The impact of sex on the motivation to learn science, measured by five key concepts, only works indirectly, namely through the influence of sex on the SQ. The empathizing quotient (EQ) has no impact on the motivation to learn science. The SQ explains between 13 and 23 percent of the variation of the five key constructs. In female students, the impact of the SQ is very similar for all key concepts. In male students, it is highest for self-efficacy and lowest for assessment anxiety. The motivation to learn science is significantly larger for male students in all involved SMQ key concepts, but the difference is small. The interpretation of these findings and conclusions for science teaching and further research are discussed.  相似文献   

10.
Researchers have reported persuasive evidence that students?? perceptions of their classroom learning environment account for significant variance in cognitive and affective outcomes (e.g. intrinsic motivation, self-concept, liking for particular subjects and students?? intention to drop out). The study reported in this paper investigated the relationship between students?? perceptions of classroom learning environment and motivational achievement goal orientations towards biology and physics, as well as the influence of gender. Participants (N?=?1538) were high school science students from the north-eastern region of Thailand. Our results suggest that motivational goals are linked to differences in students?? perceptions of learning environment and levels of biology and physics classroom anxiety. We found that females adopted significantly higher levels of mastery and performance approach goals towards biology, while males adopted significantly higher levels of mastery and performance approach goals towards physics. Males adopted significantly higher levels of performance avoidance goals towards both biology and physics. Positive associations emerged between gender and the adoption of specific performance goals, perceived degree of competition in biology and physics classrooms, and levels of biology and physics classroom anxiety. These results suggest that motivational goal orientations and perceptions of learning environment are gender-dependent and domain-specific for the two science content areas.  相似文献   

11.
基础教育改革中自然科学课程的设立呼唤高素质的科学教师,高师培养中学理科分科教师的一贯模式必须要打破,自然科学专业的设立或理、化、生分科院系互选课程是高师培养科学教师的两条可行路径。  相似文献   

12.
Science motivation is an important factor that directly influences students’ science learning. Numerous studies have been undertaken to develop and validate questionnaire items for measuring students’ motivation in science learning. This study is the first longitudinal examination of the Chinese version of Science Motivation Questionnaire II (SMQ II-C) in a Chinese cultural context. Using two waves of surveys, we evaluated its internal structure validity and criterion-related validity. Results showed that at each time point, scores were internally consistent and the hypothesized five-factor model was confirmed as the best model fit for the data. Results of multigroup invariance revealed the structure of the SMQ II-C was equivalent within gender subgroups. Furthermore, the present study added longitudinal invariance evidence of the SMQ II-C by sampling two-time points. Overall, this study suggests the SMQ II-C is a robust instrument for evaluating Chinese high school students’ motivation to learn science. Furthermore, boys yielded higher scores than girls among all five subscales of science motivation and significant gender differences were observed in both waves. Implications and limitations of these results are discussed.  相似文献   

13.
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14.
In this research project, we investigated two beginning secondary science teachers' efforts to learn to teach science in ways that build from and celebrate the ethnic, gender, linguistic, and academic diversity of their students. To do so, we followed Troy and Brian from their preservice teacher education experiences through their first year of teaching 8th grade physical science at local junior high schools. We also conducted a follow‐up observation and interview with each participant after he had moved past the beginning stage of survival in the teaching profession—once in his fourth year of public school science teaching. Through qualitative analysis of interviews, classroom observations, and teachers' written work, we identified patterns and explored commonalities and differences in Troy and Brian's views and practices tied to equity over time. In particular, we examined successes and challenges they encountered in learning to teach science for all (a) from their students, (b) from inquiry into practice, and (c) from participation in professional communities. In our implications, we suggest ways teacher educators and induction professionals can better support beginning teachers in learning to teach science to all students. In particular, we highlight the central roles both individual colleagues and collective school cultures play in aiding or impeding beginning teachers' efforts to learn from students, from practice, and from professional communities. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 44: 586–612, 2007.  相似文献   

15.
We came to this study with a set of beliefs about good science teaching that had been heavily influenced by the constructivist literature of the past decade. In this article we reexamine some of our own assumptions about good teaching by exploring the classroom practices of an experienced physics teacher. This teacher did not fit the mold of the constructivist teacher and, yet, there was much to suggest that he was meeting the needs of the students in his class. His methods were almost entirely whole class—focusing mainly on physics content, examination technique and algorithm practice. Our close observation of this teacher in his Grade 11 classroom over several months suggests an alternative framework for examining his work. We examine this framework through a number of themes: teacher confidence, the structure of the discipline, student motivation, trust, and the cultural context of learning. We argue for a broader view of good science teaching than that proposed by the constructivist literature, one that takes into account teachers' and students' understandings of science in relation to their social and cultural contexts.  相似文献   

16.
Summaries

English

In parts of England and Wales, middle schools have been introduced for pupils of eight to 12 or nine to 13 years of age. From these they enter secondary schools whose general age of entry is 11. It is feared that the teaching of science in middle schools is inadequate and variable. This research has followed the science interests of pupils aged from 12 to 14 and investigated the factors that affect them by means of three questionnaires administered at yearly intervals.

The first questionnaire was administered to almost 600 boys and girls mainly to explore their recollections of the science activities they had experienced or not done in the 52 middle schools from which they came. Their liking for science was also measured and each of the activities done or not done was correlated with it. There were activities which correlated positively and negatively with liking for middle‐school science. There were also sex differences, with boys showing greater interest in ‘physical science’ activities and girls in biological ones. The most remarkable finding was that for girls the higher correlating activities were not merely biological but botanical and they were deterred by some activities with animals.

The second questionnaire after one year in the secondary schools, i.e. at 13 + , monitored the liking for chemistry, physics and biology taken by about 450 pupils. The third questionnaire was given at 14+ when these pupils had chosen to continue or abandon the further study of the three sciences. All the variables from the three questionnaires were then correlated with these science choices. Although the general influence of liking for middle‐school science had by then disappeared, certain specific middle‐school science activities still correlated significantly with science choices. The correlates of chemistry and physics choice were not exclusively physical science but included biological activities in which some measurement was involved, for example plant growth. There were sex differences. Previous activities with animals was detrimental to girls’ biology choices.

A range of other factors had, however, altered pupils’ liking for sciences over the two years in the secondary school: effects of teachers, perceptions of difficulty (especially in the case of girls’ physcial science) and liking for practical work. About a third of the pupils had not made up their minds about what subjects they wanted to study indicating that such an early age of choice is undesirable.  相似文献   

17.
Many of the explanations for girls’ disinterest in physics focus on the role of the educational system in creating this situation. Here, we use evidence from free‐choice science learning settings to study if this lack of interest is also expressed in non‐school settings. Three sets of self‐generated questions raised by children, adolescents and adults in the fields of biology and physics were used. The outcomes of this analysis show that the polar pattern previously described in school science settings, in which physics proves significantly less interesting to girls than to boys, while biology is of greater interest to girls than to boys, also appears in free‐choice science learning settings. While boys develop an interest in physics with age, girls do not develop such an interest to the same degree. Thus, the initial gap in interest is probably not based on school‐related causes, but its widening in later years probably is. A difference was also found between the genders in the type of information requested and in the motivation for raising the questions. Using topics that appeal to girls’ interest as the context of science learning could prove beneficial in the process of mainstreaming science education. These topics can be identified using girls’ spontaneous questions.  相似文献   

18.

This article reports a study of the knowledge of experienced science teachers in the context of a reform in science education in The Netherlands. The study focused on a major goal of the reform, that is, improving students' knowledge and abilities in the field of models and modelling in science. First, seven teachers of biology and chemistry were interviewed about the teaching and learning of models and modelling in science. Next, a questionnaire was designed consisting of 30 items on a Likert-type scale. This questionnaire was completed by a group ( n = 74) of teachers of biology, chemistry and physics. Results indicated that the teachers could be grouped in two subgroups, who differed in terms of their self-reported use of teaching activities focusing on models: one sub-group applied such activities substantially more often than the other sub-group. This distinction appeared not to be related to the teachers' subject, or teaching experience. Moreover, the use of teaching activities seemed only loosely related to the teachers' knowledge of their students, particularly, students' views of models and modelling abilities. Implications for the design of teacher education are discussed.  相似文献   

19.
Educational outreach facilities provide unique opportunities to learn sciences at the forefront of research. An example is Biosphere 2, a site of environmental and ecological research, which is coupled to Education for Sustainable Development (ESD). Research facilities can evoke the relevance of sciences in everyday life. This is important in secondary schooling to increase students’ engagement in sciences, while environmental challenges continue to expand. We therefore examined the role of fascination and motivation on learning with 5th to 12th grade students who participated in a half- to full-day on-site education program. Our data confirmed the construct of fascination through Rasch and factor analysis, revealed substantial knowledge gains, showed effects of motivation and fascination on knowledge scores, and suggested that authentic learning enhanced science engagement. Results further indicated that both instruments measure an analogous construct, while motivation appeared to have more predictive power on cognitive achievement.  相似文献   

20.
Over 20 years of research into the use of cross‐curricular drama in secondary science has indicated that this medium enables learning of affective, cognitive and procedural knowledge. To date, academic research has tended to frame successful drama pedagogy as resulting from a Drama‐in‐Education approach, incorporating extended role plays and simulations of social events. By contrast, research has rarely focused on the scope and context of drama which is devised and used by real people in real situations. Indications from non‐academic literature and informal education practice suggest that there is a gap in our knowledge between research and classroom practice. This study focused on teachers’ own drama activities in five science lessons taught across schools in Cambridge, Kent, and Hertfordshire. Their classes spanned the ages of 12–16 in the subjects of chemistry, biology, and physics. This study explored the drama forms, teaching objectives, and characteristics by which drama was perceived to enable learning in Science. The findings revealed that drama activities were used to convey a variety of topics that have not yet been recorded in academic literature, and revealed a greater scope for the teaching abstract scientific concepts through mime and role play. These activities were perceived to develop students’ visualisation through a range of modalities, which included embodied sensation and anthropomorphic metaphors. Some features reflected the development of thought experiment skills. A pedagogic model was produced based on different levels of interactive talk and multimodal communication.  相似文献   

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