Mobile Technology in Science Classrooms: Using iPad-enabled Constructivist Learning to Promote Collaborative Problem Solving and Chemistry Learning

Ting, Melodie Mirth Go

January 2018

Most recently, there has been a noticeable rise in the push for use of technology in the classroom. The advancement in digital science has increased greatly the capacity to explore animations, models, and interesting apps. that should substantially enhance science cognition. At the same time, there is a great need to increase collaboration in the science classroom. There is a concern that the collaborative experience will be lost with the use of technology in the classroom. This study seeks to explore the use of iPads in conjunction with a constructivist learning approach to promote student collaboration. The participants in this study included two sections of 11th grade AP Chemistry students. Data was generated from different sources such as teacher observations of classroom interactions patterned after Gilles (2004). In order to gauge student perception of working in groups with the use of the iPad, survey questions adapted from Knezek, Mills and Wakefield (2012) and group interviews were used (Galleta, 2013). Learning outcomes were assessed using methods adapted from a study by Lord and Baviskar (2007). Findings of this study showed high percentages of evidence for increased community, productive student group communication, effective feedback through use of the iPads, and value of the interactive apps., but it also showed that students still preferred face-to-face interactions over virtual interactions for certain learning situations. The study showed good content learning outcomes, as well as favorable opinions among the students for the effectiveness of the use of iPads in collaborative settings in the classroom.

Science--Study and teaching

Chemistry--Study and teaching

Educational technology

Group work in education

Tablet computers

Teacher aims for a matriculation chemistry course, with special reference to critical thinking ability in a science setting, and possible influences of the external examination on achievement of aims

Sullivan, Michael James

January 1979

290 leaves : ill., diags., tables ; 31 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Education, 1980

Frequency of testing and its effects on achievement, test anxiety and attitudes toward science of students at University Technology of Malaysia

Yamin, Sulaiman Bin

02 August 1988

The purpose of this study was to determine the effects of frequent versus conventional testing on Chemistry achievement test anxiety, and attitudes toward science of students enrolled in general chemistry classes at the University Technology of Malaysia. The subjects consisted of 278 students taking first year Chemistry at the University Technology of Malaysia. The students were given a pretest and posttest in achievement, test anxiety, and attitudes toward science. The instruments included an achievement test in chemistry made up of selected items from previous American Chemical Society Cooperative Examinations and translated versions of the State Trait Anxiety Inventory and Science Attitude Questionnaire. Pretest scores were used to assign students randomly into experimental and control groups. The experimental group was subjected to frequent testing, while the control group was subjected to conventional testing. The data were analyzed using one-way and three-way analysis of covariance. The analysis revealed significant difference between the experimental and control groups in student (a) achievement in chemistry with the experimental group achieving at higher levels and (b) test anxiety with the experimental group having lower test anxiety than the control group. No significant difference was found in students attitudes toward science between the experimental and control groups. It was concluded that first year Chemistry students at the University Technology of Malaysia achieve significantly higher in chemistry when they are subjected to frequent rather than conventional testing. It was further concluded that frequent testing was significantly more effective than conventional testing in lowering student test anxiety. / Graduation date: 1989

Test anxiety

Effects of using presentation formats that accommodate the learner's multiple intelligences on the learning of freshman college chemistry concepts

Brown Wright, Gloria Aileen

13 April 2012

Howard Gardner's Theory of Multiple Intelligences identifies linguistic, spatial and logical-mathematical intelligences as necessary for learning in the physical sciences. He has identified nine intelligences which all persons possess to varying degrees, and says that learning is most effective when learners receive information in formats that correspond to their intelligence strengths. This research investigated the importance of the multiple intelligences of students in first-year college chemistry to the learning of chemistry concepts. At three pre-selected intervals during the first-semester course each participant received a tutorial on a chemistry topic, each time in a format corresponding to a different one of the three intelligences, just before the concept was introduced by the class lecturer. At the end of the experiment all subjects had experienced each of the three topics once and each format once, after which they were administered a validated instrument to measure their relative strengths in these three intelligences. The difference between a pre- and post-tutorial quiz administered on each occasion was used as a measure of learning. Most subjects were found to have similar strengths in the three intelligences and to benefit from the tutorials regardless of format. Where a difference in the extent of benefit occurred the difference was related to the chemistry concept. Data which indicate that students' preferences support these findings are also included and recommendations for extending this research to other intelligences are made. / text

Chemistry

Multiple intelligences

Learning

Chemistry--Study and teaching (Higher)

Multiple intelligences

Learning

Fostering conceptual change and epistemic changes in chemistry throughcollaborative knowledge-building inquiry

Lam, Ching-kin., 林正乾.

January 2012

This study examined the design and process of how students’ reflective assessment promoted collaborative metacognition for conceptual and epistemic changes, mediated by Knowledge Forum, a computer-supported knowledge building environment. Premised on the theories of knowledge building, conceptual change and epistemic beliefs, the study aimed to (1) design and evaluate the effects of collaborative knowledge building environment augmented with reflective, transformative assessment on conceptual change and epistemic beliefs change; (2) characterize the socio-cognitive dynamics of knowledge building on conceptual and epistemic changes; and (3) explore the interplay among knowledge building, conceptual change and epistemic beliefs about science. Two empirical studies were conducted with different cohorts of Grade 10 Chinese students from a regular high school in Hong Kong. Both studies employed quasi-experimental pre-posttest design. The participants of Study One consisted of 79 girls from two chemistry classes, one was instructed with knowledge building inquiry and the other with teacher-centred instruction. Study Two included 80 girls from two chemistry classes, one was instructed with knowledge building inquiry and the other with ‘scaffolded’ knowledge building inquiry emphasizing more on knowledge creation and scaffolds uses in the reflection assessment. The knowledge building environment was designed in ways that aligned with the principles of knowledge building and conceptual change. It included four phases − developing collaborative classroom culture, problem-centred knowledge building inquiry, deepening knowledge building discourse and assessment for knowledge building. The design of reflective assignments allowed students to reflect and assess their own prior beliefs, conceptions, and trajectories of growth toward scientific understanding. Quantitative and qualitative data were drawn from conceptual written tests, Science Learning Questionnaire as a measure of epistemic beliefs, and Analytic Toolkit indices, reflections and written discourse in the Knowledge Forum database. Study One demonstrated the positive instructional effects of knowledge building inquiry in promoting conceptual and epistemic beliefs changes over the teacher-centred instruction. Results showed that knowledge building reflection and inquiry contributed to conceptual understanding over and above prior knowledge. Path model suggested that prior epistemic beliefs exerted a significant indirect effect on conceptual understanding mediated by knowledge building reflection, inquiry and forum participation. Study Two further examined the role of knowledge building reflection on conceptual and epistemic changes. Results indicated stronger effects for the ‘scaffolded’ knowledge building class compared to the control class. Qualitative analyses showed how students’ reflective assessment and collaboration helped them to develop metaconceptual and epistemic awareness for conceptual change. Path analysis revealed that students’ engagement on Knowledge Forum predicted collaborative reflection that in turn exerted effects on their conceptual and epistemic beliefs changes. Inquiry thread analysis on theme-based discursive discourse and students’ epistemic reflections in interviews further provided evidence on the development of metaconceptual and epistemic awareness in the collaborative knowledge building inquiry. The study contributes to the literature on how knowledge building dynamics interact with the intentional conceptual change, demonstrating the role of socio-cognitive, metacognitive and epistemic dynamics of knowledge building on conceptual and epistemic beliefs changes. Pedagogical implications of knowledge building for developing epistemic beliefs and metaconceptual awareness for conceptual change are discussed. / published_or_final_version / Education / Doctoral / Doctor of Philosophy

Vygotskian based grouping: utilizing the zone of proximal development in a chemistry laboratory

Briggle, Justin David

28 August 2008

Not available / text

Prediction of academic achievement in high school chemistry

Jordan, Thomas Patrick, 1926-

January 1951

No description available.

Academic achievement -- Testing.

The forgotten tool : a socio-historical analysis of the development and use of mechanical molecular models in chemistry and allied disciplines

Francoeur, Eric.

January 1998

This thesis offers a detailed socio-historical exploration of the practice of molecular modelling in chemistry and allied disciplines. This exploration leads to observations and conclusions that are of relevance to the sociology of science in general and to the issue of representation in scientific practice, in particular. After a general introduction in chapter one, chapter two offers a review of the science studies' literature relevant to the topic, namely the literature on representation and on experimental practices in the sciences. The lack of sources dealing with the issue of physical modelling is highlighted. Chapter three, through specific cases studies, presents the argument that the circulation of structural concepts and accounts in chemistry has been historically associated with the circulation not only of graphical representations, but also of physical models. Implications of this argument for a semiotically-centred view of scientific practice are discussed. Chapter 4 discusses the role of models as a research tool. Through various historical cases, it shows how physical models have been central in the process of defining, exploring and intervening on the domain of molecular-structures as accessed through laboratory manipulations. The work of molecular modelling is presented in particular as the experimental articulation of structural constraints within clearly defined research settings. Chapters five and six analyse the development of three specific modelling systems from the late 1930s to the mid-1960s. These chapters show these developments as contingent processes based on the involvement of elite researchers and both private and public institutions. It shows in particular how these modelling systems were made relevant across individual research sites by providing not only a technical solution to the problem of assembling model structures, but also by incorporating specific structural constraints. Finally, it is argued that these systems are one of

Teaching -- Aids and devices -- History.

Molecules -- Models.

Building a chemical background for the study of biological sciences

Wendelboe, Linda J.

January 1982

This creative project consisted of the development of a workbook entitled, Building a Chemical Background for the Study of Biological Sciences. The workbook has been created for use in advanced high school level science classes or as a reference in undergraduate college biology courses. The workbook covers the following subject: atomic structures, covalent bonding, acids and bases, energy, water, hydrocarbons, functional groups, carbohydrates, lipids, proteins and nucleic acids.Field-testing was done on the workbook by one advanced high school chemistry class and two college freshman level biology classes. The percent gain for the high school field-testing was 68.9%, while the percent gain for the college experimental group was 22.7% and the percent gain for the college control group was 20.9%.

Ensino de soluções químicas por meio da abordagem Ciência-Tecnologia-Sociedade (CTS)

Niezer, Tânia Mara

24 August 2012

Este estudo parte da problematização sobre as possibilidades de se ensinar em sala de aula, o conteúdo químico de Soluções, relacionado ao cotidiano dos alunos, de forma a proporcionar a Alfabetização Científica e Tecnológica (ACT) por meio do enfoque Ciência-Tecnologia-Sociedade (CTS). O objetivo geral desta pesquisa consiste em desenvolver e analisar o ensino do conteúdo químico Soluções relacionando-o ao cotidiano dos alunos por meio do enfoque CTS contribuindo para a Alfabetização Científica e Tecnológica (ACT). O estudo foi desenvolvido com 55 alunos, da 2ª série do Ensino Médio, do curso Técnico em Agropecuária de um Centro Estadual de Educação Profissional, da cidade de Rio Negro, no Paraná. A abordagem metodológica foi a qualitativa de natureza interpretativa, com observação participante. A coleta de dados se deu por meio de fotos e vídeos das atividades, observação das próprias atividades realizadas pelos alunos, arguições orais, relatórios e anotações em diário de campo. As atividades desenvolvidas nesta pesquisa foram organizadas em quinze (15) momentos, nos quais se buscou discutir e contextualizar as relações sociais da Ciência e da Tecnologia por meio do estudo de Soluções químicas, de forma interdisciplinar. Os principais resultados evidenciaram que o enfoque CTS no ensino de Soluções, contribuiu para a apropriação dos conceitos químicos, pelos alunos, sendo possível transpor questões que os envolvem dia a dia. No decorrer das aulas os alunos se mostraram mais críticos e reflexivos acerca das implicações sociais em relação às questões científicas e tecnológicas. Outro resultado obtido neste estudo consistiu na elaboração de um guia didático, que poderá ser utilizado como sugestão metodológica pelos professores de Química do Ensino Médio. / This study is the questioning about the possibilities of teaching in the classroom, the chemical content of solutions, related to the daily life of students, to provide the Scientific and Technological Literacy (ACT) by focusing Science-Technology-Society (CTS). The overall goal of this research is to develop and analyze the chemical content of education solutions relating to the daily lives of students by focusing CTS contributing to the Scientific and Technological Literacy (ACT). The study was conducted with 55 students from 2nd grade of high school, the course of an Agricultural Technician in State Center for Professional Education, the city of Rio Negro, Parana. The methodological approach was qualitative interpretative, with participant observation. Data collection occurred through photos and videos of activities, observation of activities performed by the students themselves, Pleas oral reports and notes in a field journal. The activities developed in this research were organized into fifteen (15) times in which it was sought to discuss and contextualize the social relations of science and technology through the study of chemical solutions, in an interdisciplinary way. The main results showed that the CTS approach in teaching Solutions, contributed to the appropriation of chemical concepts, students, and can transpose issues that involve day to day. During the classes students were more critical and reflective about the social implications in relation to science and technology issues. Another result obtained in this study consisted of developing a teaching guide that can be used as a methodological suggestion by teachers of high school chemistry.

Química - Estudo e ensino

Ciência - Estudo e ensino

Solução (Química)

Chemistry - Study and teaching

Science - Study and teaching

Solution (Chemistry)