Same place,different experiences: exploring the influence of gender on students’ science museum experiences

Providing learning environments that are motivating for female students and male students alike is a challenge for science educators. This overview of the research conducted in science museums provides initial insights into informal educational settings that allow female visitors to have experiences which foster development of science interest and learning. The discussion of the influence of gender on learning experiences in informal science environments raises questions and calls for further research and more comprehensive reporting of research results. Findings related to gender‐equitable learning in settings such as science museums would be beneficial and extend the present knowledge base in science education.     

Parents’ own school recollections influence their perception of the functioning of their child’s school

This follow-up study set out to examine whether parents’ recollections of their own school would predict their degree of satisfaction with the functioning of their child’s school. A group of academically educated and vocationally educated parents with a child in preschool (N=391) were asked to think back to their primary school days and evaluate their school; these parents were then asked to indicate their satisfaction with the functioning of their child’s school once the child had reached the first, the third and the fifth grade. The parents’ recollections were found to influence their degree of satisfaction: among the academically educated respondents, the parents with relatively positive recollections showed higher levels of satisfaction than the parents with relatively negative recollections did; and among the vocationally educated respondents, the mothers with relatively positive recollections indicated higher levels of satisfaction than the mothers with relatively negative recollections did. It was suggested that parents’ recollections may be seen as an experience-based component of their general attitude towards education.     

Students’ motivational beliefs in science learning,school motivational contexts,and science achievement in Taiwan

ABSTRACT

Taiwanese students are featured as having high academic achievement but low motivational beliefs according to the serial results of the Trends in Mathematics and Science Study (TIMSS). Moreover, given that the role of context has become more important in the development of academic motivation theory, this study aimed to examine the relationship between motivational beliefs and science achievement at both the student and school levels. Based on the Expectancy-Value Theory, the three motivational beliefs, namely self-concept, intrinsic value, and utility value, were the focuses of this study. The two-level hierarchical linear model was used to analyse the Taiwanese TIMSS 2011 eighth-grade student data. The results indicated that each motivational belief had a positive predictive effect on science achievement. Additionally, a positive school contextual effect of self-concept on science achievement was identified. Furthermore, school-mean utility value had a negative moderating effect on the relationship between utility value and science achievement. In conclusion, this study sheds light on the functioning of motivational beliefs in science learning among Taiwanese adolescents with consideration of the school motivational contexts.     

Students’ experiences of the factors affecting their study progress: differences in study profiles

Many factors influence students’ progress in higher education. However, the students’ own voices are seldom heard. Using a qualitative approach, the study explored students’ own experiences of the factors that have influenced their studying. Research has indicated that students’ experiences are often related to their approaches to learning. Therefore, experiences of enhancing and impeding factors were explored here in relation to different study profiles. Altogether 736 open-ended answers were analysed by qualitative context analysis. After establishing the categories of enhancing and impeding factors and creating the student profiles, the differences between the profiles were examined using chi-square tests. The results revealed that the students had experienced a broad variety of factors that influenced their studying. These experiences varied widely with regard to the students’ study profiles. In particular, those in the Students applying a surface approach and Unorganised students applying a deep approach profiles appeared to experience more obstacles in their studies than the students in other profiles. Characteristic of these two profiles was the students’ low ability to organise their studies, that is, manage their time and effort. The study suggests that at least part of the variation in students’ experiences of the factors influencing their progress is explainable by the students’ learning profiles. Whether it would be useful to identify different student profiles rather than concentrate on asking the students directly about their experiences of enhancing and impeding factors is discussed.     

Students’ perceptions of vocabulary knowledge and learning in a middle school science classroom

This study investigated eighth-grade science students’ (13–14-year-olds) perceptions of their vocabulary knowledge, learning, and content achievement. Data sources included pre- and posttest of students’ perceptions of vocabulary knowledge, students’ perceptions of vocabulary and reading strategies surveys, and a content achievement test. Students’ perceptions of vocabulary knowledge were compared before and after instruction to see whether students believed they gained knowledge and the ability to explain categories of technical science terms. Students’ perceptions of vocabulary knowledge increased as a result of instruction. The participants had favorable views of the vocabulary and reading strategies implemented and believed the literacy approaches were important for their developing science knowledge. In addition, students’ content achievement was compared to a national data set. Students in this study outperformed a national data set on all content knowledge items assessed. Students’ perceptions of their knowledge and vocabulary and reading strategies were congruent with their content achievement. This study is one of the first to highlight the pivotal role students’ perception of vocabulary knowledge and vocabulary and reading strategies plays in science content learning.     

Gender Differences in High‐school Students’ Views about Science

This study examined gender differences in 79 high‐school students’ attitudes towards their science classes, their perceptions of science and scientists, and their views about majoring in science. The study identified some of the subtleties underlying females’ low participation in, and interest in, science documented in previous research. Four themes emerged from responses on the rating scales and questionnaire. First, even when females planned to major in science, they were more interested than males in the people‐oriented aspects of their planned majors. Second, biology was the one exception to females’ low interest in science. Third, females often planned a science major mainly because they needed a science background in order to enter a health profession such as medicine or physical therapy. Fourth, females generally found science uninteresting and the scientific lifestyle (as perceived by them) unattractive. Implications for teaching science were discussed.     

Integrated Science Students’ Assessment of their Teachers for Characteristics of Effective Science Teaching

This study explored views held by pre-service and in-service science teachers regarding the nature of science and technology particularly: (a) the characteristics of science and technology; (b) the aim of science and scientific research; (c) the characteristics of scientific knowledge and scientific theories; and (d) the relationship between science and technology. The views held by science teachers at pre-service and in-service levels were assessed using a questionnaire. The findings revealed that generally science teachers at both pre-service and in-service levels showed similar views in relation to the nature of science and technology. While the participants displayed mix views regarding science as content oriented or process oriented, technology was viewed as an application of science. Implications of these views for classroom teaching and learning are presented.     

An investigation of Taiwanese high school students’ science learning self-efficacy in relation to their conceptions of learning science

Background: Past studies have shown significant associations between students’ conceptions of learning science and their science learning self-efficacy. However, in most of the studies, students’ science learning self-efficacy has often been measured by a singular scale.

Purpose: Extending the findings of these studies, the present study adopted a multi-dimensional instrument to assess Taiwanese high school students’ science learning self-efficacy and investigate the relationships with their conceptions of learning science.

Sample: A total of 488 Taiwanese high school students (265 male and 223 female) were invited to participate in this survey.

Design and method: All the participants responded to the Conceptions of Learning Science (COLS) questionnaire regarding ‘Memorizing’, ‘Testing’, ‘Calculating and practicing’, ‘Increase of knowledge’, ‘Applying’ and ‘Understanding and seeing in a new way’ and the Science Learning Self-Efficacy (SLSE) instrument, including ‘Conceptual understanding’, ‘Higher-Order cognitive skills’, ‘Practical work’, ‘Everyday application’ and ‘Science communication’.

Results: The path analysis results derived from the structural equation modeling method indicated that, of all five SLSE dimensions, the ‘Understanding and seeing in a new way’ COLS displayed as a positive predictor, while the ‘Testing’ COLS was a significant negative predictor. The ‘Applying’ COLS item can only positively contribute to the SLSE dimensions of ‘Higher-Order thinking skills’, ‘Everyday application’ and ‘Science Communication’.

Conclusions: In general, students in strong agreement with learning science as understanding and seeing in a new way or the application of learned scientific knowledge are prone to possess higher confidence in learning science. However, students who consider learning science in terms of preparing for tests and examinations tend to hold lower science learning self-efficacy.     

Students ’ perceptions of science classes in the Philippines

This study used a modified version of the Perception of Science Classes Survey (Kardash & Wallace, 2001) to survey 7,885 grade school and high school students in different provinces in the Philippines regarding their perceptions of their science classes. Factor analysis revealed five dimensions of the students ’ perceptions that relate to different aspects of the teacher ’s pedagogy and the learning environment created by the teachers: (a) Learner-Centered Pedagogy, (b) Science Inquiry Activities, (c) Positive Affect and Attitudes, (d) Grades as Feedback, and (e) Support for Self-Learning and Effort. Factor scores were compared across grade levels and genders. The results indicate a decrease in science inquiry activities and the use of grades as feedback in the higher grades, but an increase in support for self-learning and effort, and also positive affects and attitudes. These trends were discussed in relation to possible problems related to teacher practices that may contribute to low student achievement levels in science. This research was part of a research project commissioned by the Japan International Cooperation Agency-Philippines.     

Students’ experiences of learning with iPads in upper secondary school – a base for proto-TPACK

This research focuses on Finnish students’ (n?=?84) experiences of using personal iPads in their studies through 3 years of upper secondary schooling. It is based on results from one of the first schools in Finland where all the new students were provided with iPads at the start of their studies. Data consists of: (i) 127 short stories written by students about how they would advise a new teacher and a new student to use iPads in teaching and learning, and (ii) four group discussions on the same topics. Qualitative thematic analysis of the data was guided by the TPACK framework. Results suggest that: (i) teachers’ pedagogical approaches changed little in response to the new devices and remained largely teacher-centred, and (ii) students do not have the confidence to radically change learning styles to take advantage of the affordances of the devices. The value that iPads add to teaching and learning is difficult to quantify because of the complex and often conflicting factors involved. Overall, the findings imply that teachers’ TPACK is generally resistant to change and students’ proto-TPACK is insufficiently developed to initiate change. An approach that systematically develops both students’ and teachers’ TPACK is advocated.     

Students’ experiences of teaching at secondary school and university: sharing responsibility for classroom engagement

Recently much research has focused on student engagement, both at school and at university. This attention is motivated by the role that engagement plays in student learning and in the student experience. Acknowledging that student engagement is a multifaceted construct we focus on the contribution that teaching and teacher traits make to the quality of student engagement, from the student’s perspective. In this small scale study, we adopt a qualitative methodology to investigate students’ perceptions of what factors impact on their engagement and what role the students themselves have in fostering such engagement. Focus group and one-to-one interviews with students in the last year of school and at university were analysed to reveal four overarching themes related to engagement in classroom life including the importance of active listening on the part of both students and teachers. The resulting Refined Quality Teaching Initiatives Framework outlines how dual engagement and active listening can be viable pedagogical strategies both at school and university. The framework also brings to the fore the active role and responsibilities that students have, in their own perceptions, for engagement in the classroom. We conclude with a reflection on the implications of our findings for teaching and teacher training.     

Students’ awareness of science teachers’ leadership,attitudes toward science,and positive thinking

There appears to be a complex network of cognitive and affective factors that influence students’ decisions to study science and motivate their choices to engage in science-oriented careers. This study explored 330 Taiwanese senior high school students’ awareness of their science teacher’s learning leadership and how it relates to the students’ attitudes toward science and positive thinking. Initial results revealed that the optimism of positive thinking is highly and positively correlated with the future participation in science and learning science in school attitudes toward science and self-concept in science. Moreover, structural equation modelling (SEM) results indicated that the subscale of teachers’ leadership with idealised influence was the most predictive of students’ attitudes toward science (β = .37), and the leadership with laissez-faire was predictive of students’ positive thinking (β = .21). In addition, the interview results were consistent with the quantitative findings. The correlation and SEM results indicate some of the associations and potential relationships amongst the motivational and affective factors studied and students’ attitudes toward and intentions to study science, which will increase their likelihood of future involvement in science careers.     

Students’ Perspectives of a Science Enrichment Programme: Out‐of‐school inquiry as access

Science enrichment programmes housed outside traditional school settings can offer students from traditionally under‐resourced schools valuable opportunities to access authentic scientific tools and practices. The present study contributes to our understanding of this potential and how it can best be realised through an analysis of the students’ own perspectives on a specific out‐of‐school programme—a one‐year partnership with a university‐based science outreach programme, which culminated in a half‐day laboratory experience for a total of 292 secondary students (ages 11–18 years). Extensive data were collected on this experience, including detailed field notes and video recordings of the classes’ visits to the university as well as the planning meetings with teachers at the beginning and end of the school year, surveys of the participating students, and surveys and interviews of the teachers, and were analysed both qualitatively and quantitatively using a grounded theory approach. Building on the valuable perspectives of the participating students, and comparing them with those of their eight teachers, this study confirms that carefully designed collaborative out‐of‐school inquiry programmes have the potential to broaden students’ (especially those from under‐resourced schools) experiences of science as well as bridge them to school science.     

Students’ views of uncertainty in formal and personal science

Background: Uncertainty is a crucial element of scientific knowledge growth. Students should have some understanding of how science knowledge is developed and why scientific conclusions are considered more or less certain than others. A component of the nature of science, it is considered an important aspect of science education and allows students to recognize the limitations of scientific research.

Purpose: This study examined Grades 5 and 9 students’ views of uncertainty in their personal scientific research and the formal scientific research of professionals.

Sample: This study included 33 students in Grade 5 (n = 17) and Grade 9 (n = 16). The students were recruited from a charter school that emphasised inquiry instruction.

Design and methods: Data were collected through interviews. Students were asked their views of their inquiry-based projects and their views of professional science.

Results: Interview data and statistical analyses indicated that students recognized uncertainty in personal science, which varied across elements of the scientific process. Additionally, their views of uncertainty in formal science tended to change across grades and knowledge of uncertainty in personal and formal science were positively correlated.

Conclusion: These findings offer insights into the processes by which students come to understand uncertainty in science and point to ways of fostering such knowledge through teaching practices.     

Evaluation of the Effects of the Medium of Instruction on Science Learning of Hong Kong Secondary Students: Students’ Self-Concept in Science

A longitudinal study has been conducted to explore the impact of a new language policy for Hong Kong secondary schools on science learning. According to this policy, only schools that recruit the best 25% of students can teach science in English, the students' second language, while the other schools have to teach science in Chinese, the students' native language. The study involved a student cohort of 100 schools starting from S1 for three years. The outcome of science learning is conceptualized as consisting of students' achievement and self-concept in science. This paper reports the possible effects of English-medium instruction (EMI) and Chinese-medium instruction (CMI) on students' self-concept in science, as measured by students' responses to a questionnaire. Comparing with the CMI students, the EMI students showed higher self-concepts in Chinese, English and Mathematics, but a lower self-concept in science. This finding suggests that the EMI students might experience greater learning problems in science than in other subjects, probably because science learning involves abstract thinking and the mastery of scientific terminology which make a high demand on language proficiency. The EMI students showed a greater interest in learning science than the CMI students, indicating that they were more academically oriented. The EMI students, however, formed a lower perceived self-competence in science than their CMI peers, despite that they performed better in the science achievement test than many of the CMI students. This perception supports the view that using English for instruction may have negative effects on science learning. It is also consistent with the observation that the EMI students perceived science as more difficult to understand and learn than the CMI students.