Learning about Inheritance in an Out‐of‐School Setting

The purpose of this study was to investigate primary students’ learning through participation in an out‐of‐school enrichment programme, held in a science centre, which focused on DNA and genes and whether participation in the programme led to an increased understanding of inheritance as well as promoted interest in the topic. The sample consisted of two groups (245 students in the experimental group and 150 students in the control group) of upper primary students (Grade 5) from six schools in Singapore. Two instruments were developed—a 15‐item multiple‐choice test to measure learning gains and a 17‐item survey form to measure student feedback. Pre‐, post‐, and delayed post‐tests were administered. Results showed statistically significant gains in learning for the experimental group that appeared to be stable as well as high levels of interest stimulated by the programme.     

The Acquisition of Science‐related Attitudes and its Relationship to Pre‐student Teaching Experience

It is desirable that secondary school science teachers should, in addition to acquiring factual knowledge in the content area of science, also develop favourable science‐related attitudes. The present science teacher education programmes provided in Teachers’ Colleges in Nigeria make provisions for the acquisition of factual knowledge in science. However, it is assumed that positive science‐related attitudes would be incidentally acquired as secondary product of cognitive outcomes.

This paper is a report of a study in which an instructional package‐‐the Introductory Science Teacher Education (ISTE)‐‐was designed to promote in pre‐service science teachers the acquisition of favourable science‐related attitudes.

A trial administration of the ISTE was carried out in the study. Then the effect of the ISTE on students exposed to it was determined in terms of acquisition of science‐related attitudes and competence in lesson preparation.

The results obtained confirmed that the ISTE could produce better science‐related attitudes than the traditional science teacher education programme. The superiority of the effect of the ISTE on lesson preparation competence of pre‐service science teachers was also established in the study. Thus, a case is made for the need for such a package as the ISTE in science teacher education programmes.     

Multimedia e-Learning and Self-Regulated Science Learning: a Study of Primary School Learners’ Experiences and Perceptions

Journal of Science Education and Technology - Multimedia-supported e-learning is considered useful as it can offer an enjoyable independent learning experience to learners. However, the...     

High-School Students’ Epistemic Knowledge of Science and Its Relation to Learner Factors in Science Learning

The purpose of this study was to develop and validate an online contextualized test for assessing students’ understanding of epistemic knowledge of science. In addition, how students’ understanding of epistemic knowledge of science interacts with learner factors, including time spent on science learning, interest, self-efficacy, and gender, was also explored. The participants were 489 senior high school students (244 males and 245 females) from eight different schools in Taiwan. Based on the result of an extensive literature review, we first identified six factors of epistemic knowledge of science, such as status of scientific knowledge, the nature of scientific enterprise, measurement in science, and so on. An online test was then created for assessing students’ understanding of the epistemic knowledge of science. Also, a learner-factor survey was developed by adopting previous PISA survey items to measure the abovementioned learner factors. The results of this study show that; (1) by factor analysis, the six factors of epistemic knowledge of science could be grouped into two dimensions which reflect the nature of scientific knowledge and knowing in science, respectively; (2) there was a gender difference in the participants’ understanding of the epistemic knowledge of science; and (3) students’ interest in science learning and the time spent on science learning were positively correlated to their understanding of the epistemic knowledge of science.     

The Role of Struggle in Pre-Service Elementary Teachers’ Experiences as Students and Approaches to Facilitating Science Learning

Science education researchers are concerned with preparing pre-service elementary teachers (PSETs) to teach in ways that support students to learn science in a meaningful way. Preparing elementary teachers to teach science is complicated given that they tend to be generalists and may not have the same experience with science as secondary teachers. During an elementary science methods course, we explored PSETs?? perspectives on the teaching and learning of science via a case study that included four PSETs. Using Frykholm??s (Journal of Curriculum and Supervision 19:125?C149, 2004) framework of ??educative?? and ??debilitating?? discomfort, we examined PSETs?? approaches to their own science learning and their approaches to science teaching. A theme apparent in PSETs?? perspectives was struggle. We described ways in which struggle was either educative or debilitating for PSETs, both in terms of their own learning and the ways in which they approached teaching. Some PSETs who struggled in their own learning developed learning experiences to engage their students in reform-based science teaching, while some PSETs developed learning experiences that prevented their students from experiencing any sort of struggle in their learning process. The ways in which these students dealt with their own learning struggles mirrored the ways in which they dealt with their struggles to become teachers of reform-based science instruction. Helping PSETs to deal with their feelings of discomfort with science content or ideas about the nature of science learning and teaching promoted by reform documents may be a key issue in developing their willingness to become facilitators of meaningful science learning.     

The Effects of Incorporating Web‐assisted Learning with Team Teaching in Seventh‐grade Science Classes

Due to the implementation of a 9‐year integrated curriculum scheme in Taiwan, research on team teaching and web‐based technology appears to be urgent. The purpose of this study was incorporated web‐assisted learning with team teaching in seventh‐grade science classes. The specific research question concerned student performance and attitudes about the teaching method. Two certified science teachers and four classes of the seventh graders participated in this study. It used a mixed methods design, incorporating both quantitative and qualitative techniques. The main data included students’ scores, questionnaires, teachers’ self‐reflections, and the researcher’s interviews with teachers. The results showed that the average final examination scores of students experiencing the experimental teaching method were higher than that of those receiving traditional teaching. The two teaching methods showed significant difference in respect of students’ achievement. The research had limitations because of students’ abilities of data collection, computer use, and discussion, but more than one‐half of the students preferred the experimental method to traditional teaching. However, team teachers would encounter the problems of technology ability, time constraints, and entrance examination pressure.     

The Perceptions of Students in Secondary School in Regard to Evolution-Based Teaching: Acceptance and Evolution Learning Experiences—The Kingdom of Saudi Arabia

Research in Science Education - The original version of this article unfortunately contained a mistake. The author would like to add the below text as acknowledgement.     

Relational Analysis of College Science‐Major Students’ Epistemological Beliefs Toward Science and Conceptions of Learning Science

In recent years, there has been an increasing interest among educational researchers in exploring the relationships between learners’ epistemological beliefs and their conceptions of learning. This study was conducted to investigate these relationships particularly in the domain of science. The participants in this study included 407 Taiwanese college science‐major students. All of them responded to two major questionnaires, one assessing their scientific epistemological beliefs (SEBs) and the other one probing their conceptions of learning science (COLS). The SEB questionnaire included four factors: “certainty,” “source,” “development,” and “justification” of science knowledge. The COLS survey consisted of six factors in a hierarchical order, that is, learning science as “memorizing,” “preparing for tests,” “calculating and practicing,” “increasing one’s knowledge,” “application,” and “understanding and seeing in a new way.” The students’ confidence and interest toward learning science were also assessed by additional questionnaire items. Stepwise regression analyses, in general, showed coherence between students’ SEBs and their COLS, indicating that the sophistication of SEBs was consistent with less agreement with lower‐level COLS (such as “memorizing” and “preparing for tests”) as well as more agreement with higher‐level COLS (such as “understanding and seeing in a new way”). However, the SEB’s “justification” factor was positively related to almost all of COLS factors from the lower‐level to higher‐level. This study finally found that among all of the SEB and COLS factors, the “preparing for tests” factor in COLS was the solely significant variable for predicting students’ interest in science and confidence toward learning science.     

High School Students’ Perceptions of Evolution Instruction: Acceptance and Evolution Learning Experiences

Evolution is an important and sometimes controversial component of high school biology. In this study, we used a mixed methods approach to explore students’ evolution acceptance and views of evolution teaching and learning. Students explained their acceptance and rejection of evolution in terms of evidence and conflicts with religion and authority. Students largely supported the teaching of evolution and offered several reasons for its inclusion in high school biology. Students also offered several suggestions for improving evolution instruction. Evolution acceptors’ and rejecters’ views of evolution teaching and learning differed in a number of respects, and these differences may be explained using border crossing as a theoretical lens. Relevant implications for evolution instruction are discussed.     

The Role of Simulation-Enabled Design Learning Experiences on Middle School Students’ Self-generated Inherence Heuristics

Journal of Science Education and Technology - In science and engineering education, the use of heuristics has been introduced as a way of understanding the world, and as a way to approach...     

Development of an Instrument Designed to Investigate Elements of Science Students’ Metacognition,Self‐Efficacy and Learning Processes: The SEMLI‐S

The development and evaluation of science students’ metacognition, learning processes and self‐efficacy are important for improving science education. This paper reports on the development of an empirical self‐report instrument for providing a measure of students’ metacognition, self‐efficacy and constructivist science learning processes. A review of the range of literature related to metacognition, self‐regulation and constructivist learning processes resulted in the development of an initial bilingual (English and traditional Chinese) instrument composed of 72 items. This instrument was completed by 465 Hong Kong high school students. The data collected were subjected to exploratory factor analysis and Rasch analysis. The subsequent refinement process resulted in a final version of the Self‐Efficacy and Metacognition Learning Inventory—Science (SEMLI‐S) consisting of 30 items that can be used for either analysing and focusing on any or all of its dimensions or for assigning scores to individuals that enable comparison between them in relation to their metacognitive science learning orientations.     

Crossing the Border from Science Student to Science Teacher: Preservice Teachers’ Views and Experiences Learning to Teach Inquiry

Preservice science teachers face numerous challenges in understanding and teaching science as inquiry. Over the course of their teacher education program, they are expected to move from veteran science students with little experience learning their discipline through inquiry instruction to beginning science teachers adept at implementing inquiry in their own classrooms. In this study, we used Aikenhead’s (Sci Educ 81: 217–238, 1997, Science Educ 85:180–188, 2001) notion of border crossing to describe this transition preservice teachers must make from science student to science teacher. We examined what one cohort of eight preservice secondary science teachers said, did, and wrote as they both conducted a two-part inquiry investigation and designed an inquiry lesson plan. We conducted two types of qualitative analyses. One, we drew from Costa (Sci Educ 79: 313–333, 1995) to group our preservice teacher participants into one of four types of potential science teachers. Two, we identified successes and struggles in preservice teachers’ attempts to negotiate the cultural border between veteran student and beginning teacher. In our implications, we argue that preservice teachers could benefit from explicit opportunities to navigate the border between learning and teaching science; such opportunities could deepen their conceptions of inquiry beyond those exclusively fashioned as either student or teacher.     

Development and Validation of an Instrument to Measure Students’ Motivation and Self‐Regulation in Science Learning

Students’ motivational beliefs and self‐regulatory practices have been identified as instrumental in influencing the engagement of students in the learning process. An important aim of science education is to empower students by nurturing the belief that they can succeed in science learning and to cultivate the adaptive learning strategies required to help to bring about that success. This article reports the development and validation of an instrument to measure salient factors related to the motivation and self‐regulation of students in lower secondary science classrooms. The development of the instrument involved identifying key determinants of students’ motivation and self‐regulation in science learning based on theoretical and research underpinnings. Once the instrument was developed, a pilot study involving 52 students from two Grade 8 science classes was undertaken. Quantitative data were collected from 1,360 students in 78 classes across Grades 8, 9, and 10, in addition to in‐depth qualitative information gathered from 10 experienced science teachers and 12 Grade 8 students. Analyses of the data suggest that the survey has strong construct validity when used with lower secondary students. This survey could be practically valuable as a tool for gathering information that may guide classroom teachers in refocusing their teaching practices and help to evaluate the effectiveness of intervention programmes.     

The Relationship between Students’ Views of the Nature of Science and their Views of the Nature of Scientific Measurement

The present study explores the relationship between students’ views of the nature of science (NOS) and their views of the nature of scientific measurement. A questionnaire with two‐tier diagnostic multiple‐choice items on both the NOS and measurement was administered to 179 first‐year physics students with diverse school experiences. Students’ views on the NOS were classified into four NOS ‘profiles’, and views on measurement were classified according to either the point or set paradigms. The findings show that students with a NOS profile dominated by a belief that the laws of nature are to be discovered by scientists are more likely to have a view of the nature of scientific measurement characterised by a belief in ‘true’ values. On the other hand, students who believe that scientific theories are inventions of scientists, constructed from observations that are then validated through further experimentation, are more likely to have a view of the nature of scientific measurement that is underpinned by the uncertain nature of scientific evidence. The implications for teaching scientific measurement at tertiary level are discussed.     

The Relationship between Understanding of the Nature of Science and Practice: The influence of teachers’ beliefs about education,teaching and learning

This paper reports the relationship between four English primary teachers’ understanding of the nature of science and their practice. Action research was included as a major part of the research design in order to explore the dialectical interplay between various factors at work in the teachers’ practice. The influences of both tacit and espoused understandings of the nature of science were considered alongside the teachers’ beliefs about education, teaching, and learning. These beliefs were found to be the determining factor in the teachers’ decisions about classroom strategies. In arguing for a dialectical perspective on teachers’ practice, the research suggests that teachers’ espoused understanding of the nature of science may also be at least partially formed by the influence of these beliefs, raising the possibility that influence may run from teaching to theoretical understanding and not the other way round.     

Knowing and Learning about Science in Primary School ‘Communities of Science Practice’: The Views of Participating Scientists in the MyScience Initiative

MyScience is a primary science education initiative in which being in a community of practice is integral to the learning process. One component of this initiative involves professional scientists interacting with primary school communities which are navigating their way towards sustainable ‘communities of practice’ around the ‘domain’ of ‘investigating scientifically’. This paper describes the ongoing journey to date of eleven scientists (six astronomers and five engineers) who actively participated in MyScience over an extended period. Their views of interactions with teachers and students were analysed using attributes associated with both ‘communities of practice’ and the ‘nature of science’. Findings reveal new understandings about the evolving characteristics associated with the development of such school-community collaborations as well as affordances and barriers that may influence their further growth. The influence of these scientists’ own ‘community of science practices’ may account for some of the findings. Implications for science teaching and learning in primary school community of practice settings are discussed.     

The Influence of University Coursework on Pre-service Middle and High School Teachers’ Experiences with Multicultural Themes

The study explored the influence of university-based teacher education courses on pre-service middle and high school teachers’ experiences with multicultural themes in a secondary science alternative certification program. Eight participants (N = 8), six women and two men, volunteered to be a part of the study that took place over a period of four semesters. Qualitative data was collected, coded and analyzed to make meaning of the participants’ experiences. Data comprised of participants’ reflective journals, personal and group interviews, and classroom observations done in middle school practicum and high school student teaching placements. The findings indicated that while the participants became more familiar with the themes of multicultural education, many did not demonstrate fluency with these themes and struggled with balancing their responsibilities as a science teacher and a culturally competent teacher.