Relevant bibliographies by topics / Effective science teaching

Academic literature on the topic 'Effective science teaching'

Author: Grafiati

Published: 10 December 2022

Last updated: 19 February 2023

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Journal articles on the topic "Effective science teaching"

Tobin, Kenneth, Mariona Espinet, Steven E. Byrd, and Daryl Adams. "Alternative perspectives of effective science teaching." Science Education 72, no. 4 (July 1988): 433–51. http://dx.doi.org/10.1002/sce.3730720404.

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Coil, David, Mary Pat Wenderoth, Matthew Cunningham, and Clarissa Dirks. "Teaching the Process of Science: Faculty Perceptions and an Effective Methodology." CBE—Life Sciences Education 9, no. 4 (December 2010): 524–35. http://dx.doi.org/10.1187/cbe.10-01-0005.

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Most scientific endeavors require science process skills such as data interpretation, problem solving, experimental design, scientific writing, oral communication, collaborative work, and critical analysis of primary literature. These are the fundamental skills upon which the conceptual framework of scientific expertise is built. Unfortunately, most college science departments lack a formalized curriculum for teaching undergraduates science process skills. However, evidence strongly suggests that explicitly teaching undergraduates skills early in their education may enhance their understanding of science content. Our research reveals that faculty overwhelming support teaching undergraduates science process skills but typically do not spend enough time teaching skills due to the perceived need to cover content. To encourage faculty to address this issue, we provide our pedagogical philosophies, methods, and materials for teaching science process skills to freshman pursuing life science majors. We build upon previous work, showing student learning gains in both reading primary literature and scientific writing, and share student perspectives about a course where teaching the process of science, not content, was the focus. We recommend a wider implementation of courses that teach undergraduates science process skills early in their studies with the goals of improving student success and retention in the sciences and enhancing general science literacy.

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Tobin, Kenneth, Carol Briscoe, and Jere R. Holman. "Overcoming constraints to effective elementary science teaching." Science Education 74, no. 4 (July 1990): 409–20. http://dx.doi.org/10.1002/sce.3730740402.

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Gezer, Kutret, and Kadir Bilen. "Pre-Service Science Teachers’ Views About Characteristics of Effective Science Teaching and Effective Science Teacher." Journal of Applied Sciences 7, no. 20 (October 1, 2007): 3031–37. http://dx.doi.org/10.3923/jas.2007.3031.3037.

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Oyoo, Samuel Ouma. "Science Teachers’ Use of Instructional Language for Effective Science Teaching." International Journal of Science, Mathematics and Technology Learning 23, no. 2 (2016): 33–47. http://dx.doi.org/10.18848/2327-7971/cgp/v23i02/33-47.

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Bullock, R. "Effective teaching of science: a review of research." Journal of In-service Education 26, no. 1 (March 1, 2000): 209–37. http://dx.doi.org/10.1080/13674580000200402.

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Davis, Elizabeth A., and Julie Smithey. "Beginning teachers moving toward effective elementary science teaching." Science Education 93, no. 4 (July 2009): 745–70. http://dx.doi.org/10.1002/sce.20311.

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Burak, Durmuş, and Ahmet Simsar. "THE PREFERRED MENTORING ATTRIBUTES AND PRACTICES FOR EFFECTIVE SCIENCE TEACHING." Journal of Baltic Science Education 21, no. 1 (February 25, 2022): 7–25. http://dx.doi.org/10.33225/jbse/22.21.07.

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Pre-service teachers encounter many different mentor teachers during the teaching practicum process. While some teachers give sufficient coverage to early childhood science education, some do not. This research aimed to explain effective mentoring attributes and practices of the mentors which preferred by pre-service pre-school teachers during science teaching activities throughout the teaching practice lessons. The study was designed in line with the Q-methodology. The participants of the study were 39 pre-service teachers. Quantitative data were collected with the Q measurement tool developed by the researchers to describe the mentoring attributes and practices in science teaching. In addition, qualitative data were collected and analyzed through an open-ended questionnaire. The results obtained in the study revealed that pre-service pre-school teachers preferred the mentoring attributes and practices, in which they could get support at the point of personal development in science teaching. In addition, it was found that the same pre-service teachers were less likely to prefer the mentor who gave feedback and tried to be a role model while science teaching. Keywords: effective mentoring, mentor teachers, pre-school education, science teaching

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Concina, Eleonora. "Effective Music Teachers and Effective Music Teaching Today: A Systematic Review." Education Sciences 13, no. 2 (January 19, 2023): 107. http://dx.doi.org/10.3390/educsci13020107.

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(1) Background: This systematic review focuses on identifying the main features of effective music teachers and teaching recently examined in the educational and psychological literature. It aims to identify how recent studies have discussed the promotion of effectiveness in the context of both preservice and in-service music teachers. (2) Methods: A search in the main scientific databases for educational research (Eric, Science Direct, WWS, Web of Science, JSTOR) was conducted using keywords associated with the topics of effective teachers and teaching in the field of music instruction. In the end, thirty-six papers were identified and analyzed. (3) Results: The main themes were related to various dimensions of music teaching and teachers: teachers’ personal characteristics (self-esteem, resilience, etc.) and personality traits; professional skills; cognitive and psychological aspects of teachers’ professional identity (self-efficacy, professional motivation, beliefs regarding teaching and learning music, etc.); training experiences (pre- and in-service); social competence and the interpersonal relationship between the teacher and the students. (4) Conclusions: These dimensions seem interrelated and contribute to simultaneously define the effective music teacher and effective teaching in music. Specific attention should be paid to the impact of learning contexts on teachers’ activities, leading to a contextualized definition of effective music teachers.

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Dirks, Joni L. "Effective Strategies for Teaching Teamwork." Critical Care Nurse 39, no. 4 (August 1, 2019): 40–47. http://dx.doi.org/10.4037/ccn2019704.

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Teamwork is essential for health care providers, who must work together to ensure safe and effective patient care. The ability to function effectively as a team is especially important in critical care, where ad hoc teams are brought together for short-term management of crisis situations. Teamwork training has been widely implemented, but ongoing education and practice are needed to maintain and improve competency. This article reviews some of the literature on team science and provides recommendations for enhancing training to promote development of a shared mental model. Strategies such as ensuring multidisciplinary participation, clarifying team resources and goals, and creating practice scenarios can increase the effectiveness of training for critical care teams. Evaluation can provide immediate feedback on learning outcomes and may facilitate subsequent transfer of learning to the clinical setting. Interventions that improve a team’s ability to work toward a common goal can improve outcomes for critically ill patients.

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Dissertations / Theses on the topic "Effective science teaching"

Hudson, Peter. "Mentoring for effective primary science teaching." Thesis, Queensland University of Technology, 2004. https://eprints.qut.edu.au/16002/1/Peter_Hudson_Thesis.pdf.

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Primary science education is a key area in the curriculum, yet primary science education is still less than adequate, both in the number of teachers implementing a primary science syllabus and the quality of primary science teaching. Mentoring may support both teachers in their roles as mentors and preservice teachers as mentees to develop their primary science teaching practices. This research investigated mentoring for developing preservice teachers of primary science, which was divided into two stages. Stage 1 was concerned with the development of an instrument aimed at measuring preservice teachers' perceptions of their mentoring in primary science teaching. Stage 2 involved developing a mentoring intervention based on the literature and the instrument developed from Stage 1 of this research, and further investigated the influence of the intervention on mentoring practices. Stage 1 involved a survey instrument developed from the literature and a small qualitative study. This instrument was refined after pilot testing and then administered to 331 final year preservice teachers. Stage 2 involved pilot testing a mentoring intervention, which was then implemented with 12 final year preservice teachers and their mentors over a four-week professional experience (practicum). Using a two-group posttest only design, these 12 final year preservice teachers (intervention group) and 60 final year preservice teachers (control group) from the same university were compared after their four-week professional experience program. The survey instrument developed from Stage 1 was used to measure both the control group's and intervention group's perceptions of their mentoring in primary science teaching. Stage 1 results indicated that five factors characterised effective mentoring practices in primary science teaching and were supported by Confirmatory Factor Analysis (CFA). The final CFA model was theoretically and statistically significant, that is, X2(513) = 1335, p < .001, CMIDF = 2.60, IFI = .922, CFI = .921, RMR = .066, RMSEA = .070. These factors were Personal Attributes, System Requirements, Pedagogical Knowledge, Modelling, and Feedback, and had Cronbach alpha reliability coefficients of .93, .76, .94, .95, and .92, respectively. Stage 2 findings indicated that mentees involved in the intervention received statistically significant more mentoring experiences in primary science teaching on each of the 5 factors and on 31 of the 34 survey items. It was concluded that the mentoring intervention provided mentors and mentees with opportunities for developing their primary science teaching practices. Additionally, this approach simultaneously targets mentors and mentees' teaching practices and was considered economically viable.

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Hudson, Peter. "Mentoring for effective primary science teaching." Queensland University of Technology, 2004. http://eprints.qut.edu.au/16002/.

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Benjamin, Morris A. "Nigerian science teachers' beliefs about effective science teaching, their pedagogical content knowledge, and how these influence science teaching." Thesis, Edith Cowan University, Research Online, Perth, Western Australia, 2004. https://ro.ecu.edu.au/theses/834.

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This study investigated Nigerian junior secondary science teachers' beliefs about effective science teaching, their pedagogical content knowledge and how these influence their classroom teaching behaviour. The research is underpinned by a conceptual framework, which establishes a strong relationship between teachers' beliefs about teaching, teachers' pedagogical content knowledge and classroom teaching practices. The study was carried out in two phases. The first phase involved a survey of all junior secondary science teachers (N=70) from the 30 secondary schools in two Local Education Districts of Lagos State, Nigeria. The second phase involved in-depth case studies of three science teachers who were purposively selected. The case study data were collected through interviews, classroom observation sessions and document analysis. Findings from the study revealed that the teachers hold narrow, objectivist or realist views of the nature of science, and narrow and elitist views of the purpose of science teaching in schools. They also espoused beliefs consistent with knowledge transmission, teacher-centred, teacher-dominated classrooms in which students should play mainly passive roles of listening, observing the teacher and copying notes whilst under strict supervision of the teacher so as to maintain a quiet classroom for science teaching. Assessment practices are based on short paper and pencil periodic tests and terminal examinations, which are mainly for summative purposes. The teachers' classroom behaviour reflected accurate knowledge of science content and an understanding of the social and physical environment in which their students are learning. However, their teaching practices reflected pedagogical knowledge and skills, and knowledge of student learning derived from the traditional knowledge transmission pedagogy, which is not consistent with current understanding, and best practices in science teaching and learning. Their teacher-centred practices are consistent with their knowledge transmission beliefs and their pedagogical content knowledge in relation to pedagogical strategies and how students learn in science. The study revealed that shortages of science textbooks, insufficient teaching facilities and large classes, limit teachers’ effectiveness in science teaching. More contemporary approaches that actively engage students in learning and develop scientific literacy in the Nigerian context have been recommended. The implications of these findings for initial teacher education, professional development, science curriculum and science teaching have been outlined.

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Patchen, Jacob L. "Effective teaching strategies for intrinsically motivating secondary science students." Online pdf file accessible through the World Wide Web, 2010. http://archives.evergreen.edu/masterstheses/Accession89-10MIT/Patchen_JLMIT2010.pdf.

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Oliver, Emma. "Effective teaching strategies for promoting conceptual understanding in secondary science education." Online pdf file accessible through the World Wide Web, 2007. http://archives.evergreen.edu/masterstheses/Accession89-10MIT/Oliver_Emma%20MITthesis%202007.pdf.

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Hoare, Philip. "Effective teaching of science through English in Hong Kong secondary schools." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B29768299.

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Healey, Hazel. "Developing autonomy through effective teaching and learning in secondary science for able pupils." Thesis, Coventry University, 2008. http://eprints.worc.ac.uk/529/.

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This research arose from a deep concern regarding the falling numbers of able pupils who choose to study the physical sciences beyond GCSE. The research investigates the impact of the teaching and learning methodologies used in secondary school science on the attitudes and aspirations of able pupils towards the study of science and whether enabling a more autonomous role in the classroom might be beneficial. The mixed-methods research design had two phases. The first phase surveyed year 9 pupils and their science teachers across three comprehensive schools in Staffordshire. The second phase was an action research study involving the researcher working with the science department in a fourth Staffordshire comprehensive school over the following academic year. The findings of the initial phase of the research indicated that able pupils were disaffected with the science education that they received in school. Evidence from this phase of the research suggested that the didactic nature of teaching and learning in the science classroom was partly responsible for failing to inspire the ablest pupils to further study of science. The action research classroom interventions offered more autonomous learning opportunities for able pupils within science lessons. The impact of the action research on the pupils was a reported preference for the ‘ownership of task’ afforded to them in the classroom and an increased uptake of the option to study science at advanced level. The impact on the science teachers was a greater awareness of the importance of how they teach as distinct from what they teach. It supports a constructivist approach to the learning and development of both pupils and teachers, showing that serious reform of teacher initial and continuing education is needed if progress is to be widespread The implications of this research inform the ongoing debate regarding ‘best provision’ for able pupils in science; but a greater significance is that it also informs a model of ‘best provision’ for the urgent continuing professional development of science teachers. This research is particularly relevant to recent government policy on both science education and on the provision for gifted and talented pupils.

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McCall, Madelon J. Conaway Betty J. "Qualities of effective secondary science teachers perspectives of university biology students /." Waco, Tex. : Baylor University, 2008. http://hdl.handle.net/2104/5244.

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Chow, Kar-man. "Developing students' inquiry minds in school science : a classroom case study /." Hong Kong : University of Hong Kong, 2000. http://sunzi.lib.hku.hk/hkuto/record.jsp?B22278874.

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Evans, Margaret Quinn. "DEVELOPING A SCIENCE UNIT PLAN THAT IS BOTH INTERESTING AND EFFECTIVE FOR SECONDARY SCHOOLS." Kent State University Honors College / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=ksuhonors1430206786.

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Books on the topic "Effective science teaching"

Effective science teaching. Buckingham: Open University Press, 1994.

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The effective teaching of secondary science. London: Longman, 1994.

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Harlen, Wynne. Effective teaching of science: A review of research. Edinburgh [Scotland]: Scottish Council for Research in Education, 1999.

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Designing effective science instruction: What works in science classrooms. Arlington, Va: NSTA Press, 2010.

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Johnson, Brad. The edutainer: Connecting the art and science of teaching. Lanham, Md: Rowman & Littlefield Education, 2010.

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1963-, McElroy Tammy Maxson, ed. The edutainer: Connecting the art and science of teaching. Lanham, Md: Rowman & Littlefield Education, 2010.

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E, Yasso Warren, ed. Earth science activities: A guide to effective elementary school science teaching. Boston: Allyn and Bacon, 1996.

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Tweed, Anne. Designing effective science instruction: What works in science classrooms. Arlington, Va: NSTA Press, NSTA Press, National Science Teachers Association/McREL, 2009.

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Tweed, Anne. Designing effective science instruction: What works in science classrooms. Arlington, Va: NSTA Press, NSTA Press, National Science Teachers Association/McREL, 2009.

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Tony, Frontier, and Livingston David, eds. Effective supervision: Supporting the art and science of teaching. Alexandria, Va: ASCD, 2011.

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Book chapters on the topic "Effective science teaching"

Meyer, Edwin F., Nickolas Falkner, Raja Sooriamurthi, and Zbigniew Michalewicz. "Effective Teaching Approaches." In Undergraduate Topics in Computer Science, 37–63. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-6476-0_4.

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Howard, Dave, and Ashlee Perry. "Effective Inclusive Practice in Primary Science." In Primary Science: A Guide to Teaching Practice, 256–79. 1 Oliver's Yard, 55 City Road London EC1Y 1SP: SAGE Publications, Inc., 2015. http://dx.doi.org/10.4135/9781473910850.n14.

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Bakir, Aysen. "Effective Teaching: Perspectives and Insights." In Proceedings of the 2010 Academy of Marketing Science (AMS) Annual Conference, 159. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-11797-3_93.

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Weun, Seungoog. "My Perspective on Effective Teaching." In Proceedings of the 2000 Academy of Marketing Science (AMS) Annual Conference, 181. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-11885-7_42.

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Burger, Benjamin. "Course Delivery Methods for Effective Distance Science Education." In Interdisciplinary Approaches to Distance Teaching, 104–17. New York, NY : Routledge, 2016.: Routledge, 2015. http://dx.doi.org/10.4324/9781315694412-7.

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Pandey, Devarshi, Jai Singh Kushwah, Rajeevlochana G. Chittawadigi, K. Rama Krishna, and Subir Kumar Saha. "Effective Teaching of Mechanism Synthesis using MechAnalyzer Software." In Advances in Mechanism and Machine Science, 3237–44. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-20131-9_319.

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Huang, Ziying. "Exploring Effective Teaching Strategies for Business English Beginners." In Proceedings of the 2022 International Conference on Science Education and Art Appreciation (SEAA 2022), 635–42. Paris: Atlantis Press SARL, 2022. http://dx.doi.org/10.2991/978-2-494069-05-3_78.

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Brown, Colin M. "From “Good” to “Effective”: Teaching Writing Skills Explicitly in Political Science." In The Palgrave Handbook of Political Research Pedagogy, 401–11. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-76955-0_34.

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Young, Chase, David Paige, and Timothy V. Rasinski. "Using Reading Models, Theories, and Research to Develop Effective and Artful Reading Instruction and Interventions." In Artfully Teaching the Science of Reading, 159–76. New York: Routledge, 2022. http://dx.doi.org/10.4324/9781003218609-10.

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Wang, Fu Lee, Reggie Kwan, and Kenneth Wong. "An Effective Tool to Support Teaching and Learning of Modular Programming." In Communications in Computer and Information Science, 80–90. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-31398-1_8.

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Conference papers on the topic "Effective science teaching"

Ishihara, Shozo. "Science Origami, An Effective Teaching Aid on Science." In Proceedings of the 12th Asia Pacific Physics Conference (APPC12). Journal of the Physical Society of Japan, 2014. http://dx.doi.org/10.7566/jpscp.1.017024.

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Jump, Maria, and Martin Schedlbauer. "Effective Practices for Online Teaching." In SIGCSE '20: The 51st ACM Technical Symposium on Computer Science Education. New York, NY, USA: ACM, 2020. http://dx.doi.org/10.1145/3328778.3372534.

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Rüütmann, Tiia. "ENGINEERING PEDAGOGY SCIENCE AS THE CONTEMPORARY BASIS FOR EFFECTIVE TEACHING OF SCIENCE, TECHNOLOGY AND ENGINEERING." In 3rd International Baltic Symposium on Science and Technology Education (BalticSTE2019). Scientia Socialis Ltd., 2019. http://dx.doi.org/10.33225/balticste/2019.187.

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This study is introducing the basic principles of Engineering Pedagogy Science for effective design, teaching and learning of science, technology and engineering. The basic didactical models are introduced for contemporary design of effective teaching and learning. A quadruple instruction model of Engineering Pedagogy Science is proposed, integrating the principles of Behaviourism, Cognitivism, Social Constructivism and Humanism on the basis of didactic model of Engineering Pedagogy Science. Keywords: didactical model, effective teaching of STE, engineering pedagogy, educational design, quadruple instruction model.

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Ahanonye, Uchechi, and Olutosin Akinyemi. "SCIENCE CLASSROOM TALK: A DOMAIN FOR THE EFFECTIVE TEACHING AND LEARNING OF SCIENCE." In International Technology, Education and Development Conference. IATED, 2016. http://dx.doi.org/10.21125/iceri.2016.1317.

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Moody, Janette. "Teaching Effective Listening Skills to Information Systems Majors." In 2002 Informing Science + IT Education Conference. Informing Science Institute, 2002. http://dx.doi.org/10.28945/2541.

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Information systems (IS) professionals have consistently expressed the need for good communication skills in IS graduates and universities have responded by providing communication components within their curriculum and coursework. However, the typical understanding and execution of communication skills revolve around teaching presentation skills. While presentation skills are important components of communication, the communication skill of effective listening is of equal importance for information technology professionals. In fact, this skill is essential in the information requirements stage of systems development when the end-user is required to work with the IS professional in deriving the basics of the new system to be developed. This paper describes how the teaching of effective listening skills can be incorporated into a variety of IS courses and offers some exercises and techniques.

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Li, Wei, Xiaofan Wang, Lei Wang, and Xinhong Hei. "Exploration and Construction of Effective Teaching Environment." In 2019 14th International Conference on Computer Science & Education (ICCSE). IEEE, 2019. http://dx.doi.org/10.1109/iccse.2019.8845342.

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"The Effective Application Research of Emotional Teaching in the Erhu Teaching." In 2017 International Conference on Advanced Education, Psychology and Sports Science. Francis Academic Press, 2017. http://dx.doi.org/10.25236/aepss.2017.015.

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Tong, Yuxia, Xianrui Meng, and Jiantao Gu. "Developing Effective Teaching in Mathematical Equations Course." In 2009 First International Workshop on Education Technology and Computer Science. IEEE, 2009. http://dx.doi.org/10.1109/etcs.2009.642.

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Espinosa, Hugo G., and Levent Sevgi. "Effective electromagnetics teaching, no matter what!" In 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI). IEEE, 2021. http://dx.doi.org/10.1109/aps/ursi47566.2021.9704451.

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A. Grant, Kenneth, Michael Moorhouse, and Candace T Grant. "Effective Use of Case Teaching in Large Undergraduate Classes." In InSITE 2020: Informing Science + IT Education Conferences: Online. Informing Science Institute, 2020. http://dx.doi.org/10.28945/4591.

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Aim/Purpose: To guide faculty who wish to use the case method in large undergraduate classes Background: The paper reviews a range of case teaching methods and provides specific guidance on how to use them in various classroom situations. Methodology: Literature review, reflective experience, interviews, and surveys Contribution: This paper addresses a gap in case teaching research which tends to focus on its use in graduate classes Findings: Case teaching can be used effectively in large undergraduate classes, but needs to be used in different ways and with different techniques from those commonly recommended for graduate classes. Recommendations for Practitioners: Be creative and go beyond the Harvard: case method and draw on the broader range of techniques used in active and experiential learning Impact on Society: Better and more relevant classroom experiences Future Research: Examine and evaluate field examples of innovative case teaching, especially in hybrid and online environments.

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Reports on the topic "Effective science teaching"

Oleksiuk, Vasyl P., and Olesia R. Oleksiuk. Methodology of teaching cloud technologies to future computer science teachers. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3891.

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The article deals with the problem of training future computer science teachers for the use of cloud technologies. The authors analyzed courses from leading universities to study cloud technologies. On this basis the model of application and studying of cloud technologies in the process of training of future teachers of informatics was developed. The basic principles of this model are proposed: systematic, gradual, continuous. It contains target, content, operating and effective component. Therefore, the stages of using cloud computing technology were proposed: as a means of organizing learning activities, as an object of study, as a means of development. The article summarizes the experience of designing a cloud-based learning environment (CBLE). The model is based on such philosophical and pedagogical approaches as systemic, competent, activity, personality-oriented, synergistic. Hybrid cloud is the most appropriate model for this environment. It combines public and private cloud platforms. CBLE also requires the integration of cloud and traditional learning tools. The authors described the most appropriate teaching methods for cloud technologies such as classroom learning, interactive and e-learning, practical methods. The article contains many examples of how to apply the proposed methodology in a real learning process.

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Zachry, Anne, J. Flick, and S. Lancaster. Tune Up Your Teaching Toolbox! University of Tennessee Health Science Center, 2016. http://dx.doi.org/10.21007/chp.ot.fp.2016.0001.

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Occupational therapy (OT) educators strive to prepare entry-level practitioners who have the expertise to meet the diverse health care needs of society. A variety of instructional methods are used in the University of Tennessee Health Science Center (UTHSC) MOT program, including traditional lecture-based instruction (LBI), problem-based learning (PBL), team-based learning (TBL), and game-based learning (GBL). Research suggests that active learning strategies develop the critical thinking and problem-solving skills that are necessary for effective clinical reasoning and decision-making abilities. PBL, TBL, GBL are being successfully implemented in the UTHSC MOT Program to enhance the learning process and improve student engagement.

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Osypova, Nataliia V., and Volodimir I. Tatochenko. Improving the learning environment for future mathematics teachers with the use application of the dynamic mathematics system GeoGebra AR. [б. в.], July 2021. http://dx.doi.org/10.31812/123456789/4628.

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Immersive technologies and, in particular, augmented reality (AR) are rapidly changing the sphere of education, especially in the field of science, technology, engineering, arts and mathematics. High- quality professional training of a future mathematics teacher who is able to meet the challenges that permeate all sides, the realities of the globalizing information society, presupposes reliance on a highly effective learning environment. The purpose of the research is to transform the traditional educational environment for training future mathematics teachers with the use of the GeoGebra AR dynamic mathematics system, the introduction of cloud technologies into the educational process. The educational potential of GeoGebra AR in the system of professional training of future mathematics teachers is analyzed in the paper. Effective and practical tools for teaching mathematics based on GeoGebra AR using interactive models and videos for mixed and distance learning of students are provided. The advantages of the GeoGebra AR dynamic mathematics system are highlighted. The use of new technologies for the creation of didactic innovative resources that improve the process of teaching and learning mathematics is presented on the example of an educational and methodological task, the purpose of which is to create didactic material on the topic “Sections of polyhedra”. While solving it, future teachers of mathematics should develop the following constituent elements: video materials; test tasks for self-control; dynamic models of sections of polyhedra; video instructions for constructing sections of polyhedra and for solving basic problems in the GeoGebra AR system. The article highlights the main characteristics of the proposed educational environment for training future mathematics teachers using the GeoGebra AR dynamic mathematics system: interdisciplinarity, polyprofessionalism, dynamism, multicomponent.

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Babenko, Vitalina O., Roman M. Yatsenko, Pavel D. Migunov, and Abdel-Badeeh M. Salem. MarkHub Cloud Online Editor as a modern web-based book creation tool. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3858.

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The main criterion for the competitiveness of a teacher or expert in the field of science is a good ability to present their knowledge to students in an interactive form without spending a lot of time in preparation. The purpose of the study is to analyze modern editors to create educational information content in the modern educational space and to present a modern tool for creating web books based on the latest IT technologies. Modern editors of web material creation have been analyzed, statistics of situations on mastering of knowledge by listeners, using interactive methods of information submission have been investigated. Using the WYSIWYG concept and analyzing modern information tools for presenting graphic material, an effective tool for teaching interactive web material was presented. An adapted version of the MarkHub online editor based on cloud technologies is presented. Using MarkHub cloud-based online editor for the unified development of educational content can significantly increase the author’s productivity in the content creation process. At the same time, the effects of reducing the time spent on formatting the external presentation of the content, making synchronous changes to different versions of the content, tracking the versions of the content, organizing remote teamwork in the network environment are achieved.

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Pylypenko, Olha S., Tetiana H. Kramarenko, and Ivan O. Muzyka. Application of GeoGebra in Stereometry teaching. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3898.

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The purpose of the paper is to improve methodology of teaching Mathematics via the use of cloud technology. The task of the paper is to identify the issues that require a theoretical and experimental solution. The objective of the paper is the educational process in the higher education institution, the subject of the paper is modern ICT. The result of the study is the learning tools of pedagogically considered and adequate bending of conventional and modern learning environment implemented into the educational process. The possibilities of using cloud technologies and Dynamic Mathematics system GeoGebra in the educational process through Stereometry specialized training have been revealed. The use of GeoGebra Dynamic Mathematics in Stereometry teaching will favourably influence the formation of students’ STEM competencies. In order to encourage Mathematics and Computer Science teachers to implement effectively the elements of STEM education, it is suggested that cloud-based learning tools such as GeoGebra be used in the teaching process.

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Kramarenko, T. H., O. S. Pylypenko, and O. Yu Serdiuk. Digital technologies in specialized mathematics education: application of GeoGebra in Stereometry teaching. [б. в.], 2021. http://dx.doi.org/10.31812/123456789/4534.

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The purpose of the paper is to improve methodology of teaching Mathematics via the use of digital technologies. The task of the paper is to identify the issues that require a theoretical and experimental solution. The objective of the paper is the educational process in the higher education institution, the subject of the paper is modern ICT. The result of the study is the learning tools of pedagogically considered and adequate bending of conventional and modern learning environment implemented into the educational process. The possibilities of using cloud technologies and Dynamic Mathematics system GeoGebra in the educational process through Stereometry specialized training have been revealed. The use of GeoGebra Dynamic Mathematics in Stereometry teaching will favourably influence the formation of students’ STEM competencies. In order to encourage Mathematics and Computer Science teachers to implement effectively the elements of STEM education, it is suggested that cloud-based learning tools such as GeoGebra be used in the teaching process.

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Microbiology in the 21st Century: Where Are We and Where Are We Going? American Society for Microbiology, 2004. http://dx.doi.org/10.1128/aamcol.5sept.2003.

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The American Academy of Microbiology convened a colloquium September 5–7, 2003, in Charleston, South Carolina to discuss the central importance of microbes to life on earth, directions microbiology research will take in the 21st century, and ways to foster public literacy in this important field. Discussions centered on: the impact of microbes on the health of the planet and its inhabitants; the fundamental significance of microbiology to the study of all life forms; research challenges faced by microbiologists and the barriers to meeting those challenges; the need to integrate microbiology into school and university curricula; and public microbial literacy. This is an exciting time for microbiology. We are becoming increasingly aware that microbes are the basis of the biosphere. They are the ancestors of all living things and the support system for all other forms of life. Paradoxically, certain microbes pose a threat to human health and to the health of plants and animals. As the foundation of the biosphere and major determinants of human health, microbes claim a primary, fundamental role in life on earth. Hence, the study of microbes is pivotal to the study of all living things, and microbiology is essential for the study and understanding of all life on this planet. Microbiology research is changing rapidly. The field has been impacted by events that shape public perceptions of microbes, such as the emergence of globally significant diseases, threats of bioterrorism, increasing failure of formerly effective antibiotics and therapies to treat microbial diseases, and events that contaminate food on a large scale. Microbial research is taking advantage of the technological advancements that have opened new fields of inquiry, particularly in genomics. Basic areas of biological complexity, such as infectious diseases and the engineering of designer microbes for the benefit of society, are especially ripe areas for significant advancement. Overall, emphasis has increased in recent years on the evolution and ecology of microorganisms. Studies are focusing on the linkages between microbes and their phylogenetic origins and between microbes and their habitats. Increasingly, researchers are striving to join together the results of their work, moving to an integration of biological phenomena at all levels. While many areas of the microbiological sciences are ripe for exploration, microbiology must overcome a number of technological hurdles before it can fully accomplish its potential. We are at a unique time when the confluence of technological advances and the explosion of knowledge of microbial diversity will enable significant advances in microbiology, and in biology in general, over the next decade. To make the best progress, microbiology must reach across traditional departmental boundaries and integrate the expertise of scientists in other disciplines. Microbiologists are becoming increasingly aware of the need to harness the vast computing power available and apply it to better advantage in research. Current methods for curating research materials and data should be rethought and revamped. Finally, new facilities should be developed to house powerful research equipment and make it available, on a regional basis, to scientists who might otherwise lack access to the expensive tools of modern biology. It is not enough to accomplish cutting-edge research. We must also educate the children and college students of today, as they will be the researchers of tomorrow. Since microbiology provides exceptional teaching tools and is of pivotal importance to understanding biology, science education in schools should be refocused to include microbiology lessons and lab exercises. At the undergraduate level, a thorough knowledge of microbiology should be made a part of the core curriculum for life science majors. Since issues that deal with microbes have a direct bearing on the human condition, it is critical that the public-at-large become better grounded in the basics of microbiology. Public literacy campaigns must identify the issues to be conveyed and the best avenues for communicating those messages. Decision-makers at federal, state, local, and community levels should be made more aware of the ways that microbiology impacts human life and the ways school curricula could be improved to include valuable lessons in microbial science.

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Academic literature on the topic 'Effective science teaching'

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Journal articles on the topic "Effective science teaching"

Dissertations / Theses on the topic "Effective science teaching"

Books on the topic "Effective science teaching"

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Conference papers on the topic "Effective science teaching"

Reports on the topic "Effective science teaching"