An integrative review of in-class activities that enable active learning in college science classroom settings

ABSTRACT

Engaging students in active learning is linked to positive learning outcomes. This study aims to synthesise the peer-reviewed literature about ‘active learning’ in college science classroom settings. Using the methodology of an integrative literature review, 337 articles archived in the Educational Resources Information Center (ERIC) are examined. Four categories of in-class activities emerge: (i) individual non-polling activities, (ii) in-class polling activities, (iii) whole-class discussion or activities, and (iv) in-class group activities. Examining the collection of identified in-class activities through the lens of a theoretical framework informed by constructivism and social interdependence theory, we synthesise the reviewed literature to propose the active learning strategies (ALSs) model and the instructional decisions to enable active learning (IDEAL) theory. The ALS model characterises in-class activities in terms of the degrees to which they are designed to promote (i) peer interaction and (ii) social interdependence. The IDEAL theory includes the ALS model and provides a framework for conceptualising different levels of the general concept ‘active learning’ and how these levels connect to instructional decision-making about using in-class activities. The proposed ALS model and IDEAL theory can be utilised to inform instructional decision-making and future research about active learning in college science courses.     

Using climate change scenarios to assess high school students’ argumentation skills

Background: Many international science curriculum documents mandate that students should be able to participate in argument, debate and decision-making about contemporary science issues affecting society. Termed socioscientific issues, these topics provide students with opportunities to use their scientific knowledge to discuss, debate and defend their decisions and to evaluate the arguments of their peers.

Purpose: This study describes the development and trialling of scenarios based on the socioscientific issue of climate change. The scenarios required students to make and justify a decision and were designed to assess students’ argumentation skills.

Sample: A sample of 162 Year 10 students from five schools in Perth, Western Australia participated in this study.

Design and methods: Recent media articles were reviewed to identify relevant contexts for scenarios related to climate change that could be used to develop and assess students’ argumentation skills. In the first phase, students trialled scenarios about wind farms and hydrogen fuel buses using writing frames with scaffolding questions to generate as many reasons as possible to justify their decision. The responses were categorised into themes which were used to prepare a scoring rubric. In the second phase, students generated written arguments about the scenarios to support their decision. The arguments were analysed using both the scoring rubric developed from the first phase and Toulmin’s argumentation pattern of claim, data, backing, qualifier and rebuttal.

Results: Students’ responses to the scaffolded questions were categorised into themes of agriculture, economy, energy, environment, human impact and ethical factors. The themes of economy and the environment predominated with ethical justifications cited infrequently. An analysis of the arguments generated revealed a majority of students’ responses consisted of a claim and data with backings, qualifiers and rebuttals rarely provided.

Conclusions: Scenarios about climate change socioscientific issues can be used by teachers to both develop and assess students’ argumentation skills in classroom settings.     

A Study of Pupil Failures and Subject Failures in Chicago

Abstract

This study investigated teachers' sense of efficacy and biases in their decisions to refer students to special education. Teachers (N = 240) read a case study about a student with academic difficulties and judged the appropriateness of the student's regular class placement and whether they would refer the student. Teachers were randomly assigned to one of six conditions, in which student socioeconomic status (SES) and etiology of the learning problem were varied. Findings revealed that teachers who perceive themselves as ineffectual consider regular education inappropriate for underachieving students from low-SES families; teachers who believe that they are effective do not differentiate students by SES. Further, teachers referred students whose learning problems had an unspecified etiology more than those whose problems were medically or environmentally based. Thus, teachers' referral decisions appear to be biased by variables unrelated to the specific academic difficulties of the student.     

Factors explaining the learning of generic skills: a study of university students’ experiences

ABSTRACT

Although generic skills have received widespread attention from both policymakers and educationalists, little is known regarding how students acquire these skills, or how they should best be taught. Hence, the aim of this study was to identify what kinds of pedagogical practices are behind the learning of eight particular generic skills. The data were collected from university students (N =?163, n?=?123) via Internet questionnaires. The findings from regression analyses showed that teaching practices involving collaboration and interaction as well as features of a constructivist learning environment and integrative pedagogy predicted the learning of generic skills – such as decision-making skills, different forms of creativity, and problem-solving skills. In contrast, the traditional forms of university teaching – such as reading, lecturing, and working alone – were negatively associated to learning generic skills. Overall, this study offers detailed information about the pedagogical practices that nurture learning generic skills in university contexts.     

Compelling evidence: an influence on middle school students’ accounts that may impact decision-making about socioscientific issues

This study investigates how middle school students make hypothetical purchasing, consuming, and voting decisions about environmental and science-related issues – a key component of environmental literacy. Fifty-three female students were given a packet containing multiple excerpts of information from conflicting positions from stakeholders and interviewed about how they would make decisions about environmental and science-related issues. We first investigated whether and how information presented as evidence influenced students’ accounts that may impact their decision-making (i.e. to make or change decisions). We then investigated how evidence type affected students’ decision-making. Findings indicated that most students did not change their stance after reading additional contrasting information presented as evidence. Implications for science teaching and learning are discussed.     

Conditions for the Effectiveness of Multiple Visual Representations in Enhancing STEM Learning

Visual representations play a critical role in enhancing science, technology, engineering, and mathematics (STEM) learning. Educational psychology research shows that adding visual representations to text can enhance students’ learning of content knowledge, compared to text-only. But should students learn with a single type of visual representation or with multiple different types of visual representations? This article addresses this question from the perspective of the representation dilemma, namely that students often learn content they do not yet understand from representations they do not yet understand. To benefit from visual representations, students therefore need representational competencies, that is, knowledge about how visual representations depict information about the content. This article reviews literature on representational competencies involved in students’ learning of content knowledge. Building on this review, this article analyzes how the number of visual representations affects the role these representational competencies play during students’ learning of content knowledge. To this end, the article compares two common scenarios: text plus a single type of visual representations (T+SV) and text plus multiple types of visual representations (T+MV). The comparison yields seven hypotheses that describe under which conditions T+MV scenarios are more effective than T+SV scenarios. Finally, the article reviews empirical evidence for each hypothesis and discusses open questions about the representation dilemma.     

Exploring pre-service science teachers’ pedagogical capacity for formative assessment through analyses of student answers

Background: There has been an increasing emphasis on empowering pre-service and in-service science teachers to attend student reasoning and use formative assessments to guide student learning in recent years. Purpose: The purpose of this study was to explore pre-service science teachers’ pedagogical capacity for formative assessment. Sample: This study took place in Turkey. The participants include 53 pre-service science teachers in their final year of schooling. All but two of the participants are female. Design and methods: We used a mixed-methods methodology in pursing this inquiry. Participants analyzed 28 responses to seven two-tiered questions given by four students of different ability levels. We explored their ability to identify the strengths and weaknesses in students’ answers. We paid particular attention to the things that the pre-service science teachers noticed in students’ explanations, the types of inferences they made about students’ conceptual understanding, and the affordances of pedagogical decisions they made. Results: The results show that the majority of participants made an evaluative judgment (i.e. the answer is correct or incorrect) in their analyses of students’ answers. Similarly, the majority of the participants recognized the type of mistake that the students made. However, they failed to successfully elaborate on fallacies, limitations, or strengths in student reasoning. We also asked the participants to make pedagogical decisions related to what needs to be done next in order to help the students to achieve academic objectives. Results show that 8% of the recommended instructional strategies were of no affordance, 64% of low-affordance, and 28% were of high affordance in terms of helping students achieve the academic objectives. Conclusion: If our goal is to improve pre-service science teachers’ noticing skills, and the affordance of feedback that they provide, engaging them in activities that asks them to attend to students’ ideas and reasoning may be useful.     

Developing a Data-Driven Assessment for Early Childhood Candidates

ABSTRACT

Decision-making is essential for the work of teaching. Preservice teachers must learn to leverage knowledge about young readers’ strengths, needs, and interests in order to plan and teach guided reading lessons skillfully. However, limited research examines preservice teachers’ decision-making based on what they know about individual children. In this qualitative case study, we report findings from 12 preservice teachers enrolled in a reading methods course who used teacher knowledge to inform their teaching decisions for guided reading lessons with Kindergarteners. Findings reveal how participants used knowledge of learners to make planning as well as in-the-moment teaching decisions. The data show that most of these decisions were lesson planning decisions about text selection and word solving strategies, indicating that participants were beginning to engage in responsive teaching strategies. This study makes a new contribution to early childhood teacher education literature by underscoring the significance of learner knowledge in the context of authentic teaching practice while learning to teach guided reading to young children.     

Helping Teachers Formulate Sound Test Accommodation Decisions for Students with Learning Disabilities

This paper introduces a data-based approach as an alternative way to help teachers formulate decisions about the validity of test accommodations for students with LD. Three rationales for the approach are provided: (a) an inadequate research base to guide decision-making; (b) the heterogeneity of the LD population; and (c) problems with teachers' use of subjective judgment. Well-controlled studies on test accommodations are too scarce to draw firm conclusions about effects for the group of students labeled learning disabled (LD). Moreover, in light of the heterogeneity of learning disabilities, the individual, rather than the LD label, may be the more appropriate unit for deciding which test accommodations preserve the validity of test scores for students with LD. In this paper, we provide a rationale for a data-based approach to help teachers formulate decisions about the validity of test accommodations for individual students with LD. Then we describe an objective assessment process teachers may use in determining valid test accommodations. We conclude with recommendations for practitioners.     

Identifying Non-Sustainable Courses of Action: A Prerequisite for Decision-Making in Education for Sustainable Development

Students are faced with a multitude of decisions as consumers and in societal debates. Because of the scarcity of resources, the destruction of ecosystems and social injustice in a globalized world, it is vital that students are able to identify non-sustainable courses of action when involved in decision-making. The application of decision-making strategies is one approach to enhancing the quality of decisions. Options that do not meet ecological, social or economic standards should be excluded using non-compensatory strategies whereas other tasks may require a complete trade-off of all the evidence, following a compensatory approach. To enhance decision-making competence, a computer-based intervention study was conducted that focused on the use of decision-making strategies. While the results of the summative evaluation are reported by Gresch et al. (International Journal of Science Education, 2011), in-depth analyses of process-related data collected during the information processing are presented in this paper to reveal insights into the mechanisms of the intervention. The quality of high school students’ (n?=?120) metadecision skills when selecting a decision-making strategy was investigated using qualitative content analyses combined with inferential statistics. The results reveal that the students offered elaborate reflections on the sustainability of options. However, the characteristics that were declared non-sustainable differed among the students because societal norms and personal values were intertwined. One implication for education for sustainable development is that students are capable of reflecting on decision-making tasks and on corresponding favorable decision-making strategies at a metadecision level. From these results, we offer suggestions for improving learning environments and constructing test instruments for decision-making competence.     

Investigating the relationships among students’ self-efficacy beliefs,their perceptions of classroom learning environment,gender, and chemistry achievement through structural equation modeling

Background: Investigating factors contributing to chemistry achievement is important since it enables us to make more concrete instructional decisions related to improving students? chemistry achievement.

Purpose: This study aimed to investigate how students? perceptions of learning environment, self-efficacy and gender are related to chemistry achievement.

Sample: Three hundred fifty six high school students with the age range of 14 and 19 from three different schools in the same district were the participants.

Design and methods: A structural equation model was designed and tested. Constructivist learning environment survey, self-efficacy scale were the instruments of the study. Information about students? gender and their chemistry grades belonging to the previous semester were also collected.

Results: The model testing showed that chemistry self-efficacy beliefs, students? perceptions of constructivist learning environment (through chemistry-self efficacy) and gender were significantly related to chemistry achievement. Moreover, the findings showed that students? chemistry self-efficacy beliefs mediated the relation of students? learning environment perceptions to their chemistry achievement.

Conclusions: The present study has some educational implications for teachers, teacher educators and curriculum developers. First of all, self-efficacy was found to have an effect on students? achievement. Therefore, teachers should consider students? self-efficacy beliefs and devise their instruction accordingly. Another implication of this study is the necessity of considering gender differences in designing teachers? instruction.     

How school leaders search for and use evidence

Background: Often, a principal’s responsibilities include making decisions about the appropriateness of educational programmes to adopt in their school. Recommendations about programmes can be conflicting; so, a principal may need to search for evidence to inform their decision.

Purpose: The purpose of this small-scale study was to clarify how school leaders search for, and use, evidence to inform programme adoption. We sought to answer three research questions: (1) how do principals search for evidence, (2) how do they use common sources and (3) what sources do they consider most useful?

Sample: Twelve elementary school principals or vice-principals in Ontario, Canada participated in the study.

Design and methods: In telephone interviews, the participants described how they would respond to a fictional decision-making scenario and rated different sources of evidence. Responses were analysed in depth, using a mixed-method approach, which involved coding principals’ interview responses for themes and conducting a dual scaling analysis of their ratings of the usefulness of possible sources.

Results: Principals report valuing formal sources of evidence such as reports and articles. However, in practise, findings indicated that they would turn to people first.

Conclusions: School leaders prefer curated evidence from local educators to inform their decisions about the appropriateness of educational programmes for potential adoption.     

Computer-aided authoring of assessment instruments: An activity-theoretical approach

Abstract

Various researches have been conducted on the role and importance of assessment in education as well as its impact on the learner and the overall learning process. In fact, the way assessment is formulated in a particular subject shapes the way students learn. They focus their learning to comply with assessment requirements that they anticipate. In this article, the study is focused on the written examination papers (teacher-made tests) that are normally prepared at the end of a semester or an academic year to assess students of secondary and tertiary levels. The study also investigates how well papers are set and balanced according to the cognitive levels defined by Bloom (1956) and the learning outcomes/objectives as defined for the subjects. A collaborative process model as a framework for the design of such tests that can enhance the evaluation process is proposed. A brief argument is made for a case for a computer-supported collaborative environment to implement such a framework and which is based on activity theory. Such a framework is implemented in the form of MYSTIC; a collaborative authoring software for assessment instruments. The software allows stand-alone as well as collaborative authoring of examination papers and also helps academics' decision-making concerning the examination paper balancing and moderating process by graphically displaying and comparing marks allocated per question paper against the learning objectives     

Transgenic learning for STEAM subjects and virtual containers for OER

Abstract

Transgenic learning is a disruptive approach in education. It encourages modification of moving parts of the educational chain. This article provides a view of transgenic learning focused on the delivery of enriched learning contents in STEAM areas. It discusses the mutagenic role that the virtual containers may play in current distance education. We focus on the containers’ technology and how it can bridge students, computing resources, teachers and specific IT needs. We also present an experiment carried out at UNIR University where we describe the transition from using conventional software distribution methods to the use of containers. Thanks to this virtualization approach, it is possible to deliver the necessary software-based lab scenarios. The results show that the participation and satisfaction of the students increased over time. Our experience shows that the combination of open educational resources, containers, and modern distribution channels can play a significant role in STEAM education.     

Collaborative design decision-making as social process

ABSTRACT

Collaborative design is recognised as being shaped by complex social, cognitive, material, and technical processes. In the case of design decision-making, however, the social dimension has yet to be fully understood as the product of the whole team dynamic rather than as simply the sum of the individual (cognitive) contributions. This paper examines the interactional work teams of first-time design students do that produces decisions in undergraduate engineering design projects. Close analysis of decision-making episodes, recorded in design meetings in a yearlong ethnographic study, reveals the joint social and situated work teams do to produce decisions. Students were found to do decision-making via three overlapping phases that were invariant across the database: (i) Design options emerge, (ii) teams orient to design options, and (iii) design decisions come off. This paper exemplifies these phases of decision-making as inherently – and not just incidentally – social, and illustrates how decisions are produced in novice design teams via these phases in multifarious ways. We argue for an explicit retrospective focus on the processes and consequences of team decisions following projects as an avenue for fostering the development of design judgment that engineering graduates will take into their professional practice.     

Learning outdoors or with a computer: the contribution of the learning setting to learning and to environmental perceptions

ABSTRACT

Background: Outdoor learning and computer-based learning are two different alternatives to in-class conventional teacher-centered learning.

Purpose: This study compares the outdoor learning setting with computer-based learning in class. It examines the influence of the two different learning settings on academic achievements, the learning experience, and pro-environmental perceptions.

Sample: A total of 90 elementary school students (third and fourth-grade classes) participated in the study.

Design and methods: The academic knowledge of the study participants was tested through identical exams for both learning settings. In addition, in each group the students’ perceptions were examined by means of a questionnaire about environmental values and the learning experience.

Results: The study demonstrates that academic achievements in the two settings were similar, but the students expressed more enthusiasm about the outdoor learning experience than about in-class learning. In addition, the outdoor learning setting contributed more to promoting positive environmental perceptions even though students did not learn directly about environmental issues and sustainability.

Conclusions: These findings suggest that learning in the natural environment is valuable: Alongside the fostering of computerized learning, it is also important to promoteoutdoor learning settings and integrate both settings by implementing mobile technologies in the outdoor teaching.     

School Variation in General Intelligence

Abstract

One key to effective teaching is the ability to identify and understand the different ways students process information and acquire skills. The purpose of this study was to examine experienced and preservice teachers’ ability to diagnose student learning-style preferences. The subjects were 15 pairs of physical education teachers and their student teachers and 5 randomly selected students from each school site. To determine student learning styles, students completed the Canfield Learning Styles Inventory, and corresponding teachers and student teachers completed the Canfield Learning Styles Profile Assessment on each of their 5 students. The relationship between preservice/experienced teachers’ perceived scores and the students’ actual learning style scores was analyzed by the Pearson product-moment correlation technique. The results indicated that a wide variety of learning styles existed among the students and that neither experienced nor preservice teachers accurately diagnosed the learning styles of their students. The implications of this study are twofold. First, if teachers are going to make informed decisions about the teaching process, then they need to know the learning styles of their students. Second, information about learning styles should be included in the curriculum of professional preparation programs.     

High school students’ approaches to learning physics with relationship to epistemic views on physics and conceptions of learning physics

Background and purpose : Knowing how students learn physics is a central goal of physics education. The major purpose of this study is to examine the strength of the predictive power of students’ epistemic views and conceptions of learning in terms of their approaches to learning in physics. Sample, design and method : A total of 279 Taiwanese high school students ranging from 15 to 18?years old participated in this study. Three questionnaires for assessing high school students’ epistemic views on physics, conceptions of learning physics and approaches to learning physics were developed. Step-wise regression was performed to examine the predictive power of epistemic views on physics and conceptions of learning physics in terms of their approaches to learning physics. Results and conclusion: The results indicated that, in general, compared to epistemic views on physics, conceptions of learning physics are more powerful in predicting students’ approaches to learning physics in light of the regression models. That is, students’ beliefs about learning, compared with their beliefs about knowledge, may be more associated with their learning approaches. Moreover, this study revealed that the higher-level conceptions of learning physics such as ‘Seeing in a new way’ were more likely to be positively correlated with the deep approaches to learning physics, whereas the lower-level conceptions such as ‘Testing’ were more likely to positively explain the surface approaches, as well as to negatively predict the deep approaches to learning physics.     

Perceptions of challenge in science learning

Prior research has indicated that decisions made by students about their learning are influenced by perceptions of various factors related to the task and classroom context. This influence seems to be mediated by the extent to which the learner perceives personal challenge in what is done. This concept of personal challenge comprises both cognitive (demand) and affective (motivation) components. In the current paper, response trends of almost 4000 secondary science students to a questionnaire structured according to factors associated with challenge are considered by school, year level and gender. These trends indicate that challenge in science diminishes as students move from Years 7 to 10, due to increasingly negative perceptions of many of these factors. Results also indicate however that, through purposeful change in teaching perspectives and practices, teachers can establish and sustain students’ sense of challenge in classroom learning.