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What ICT resources - both hardware and software - are available for teachers of scienceHow can they be used to extend and enrich students' learning across the science curriculumHow can teachers incorporate ICT effectively into their lesson and course planning?Why should teachers of science incorporate ICT into their teaching?What developments are likely in the future?Providing clear and practical answers to these and other questions, covering information systems, publishing software, visual aids, calculating, modelling and simulation software, graphing software and measurement software, Teaching Science with ICT is a user-friendly and comprehensive guide to the subjectIt also comes complete with a CD-ROM, enabling the reader to practise ICT applications alongside reading the book.
This title is intended to identify the ways in which ICT can be used to enhance secondary science education.
This book provides a range of insights into pupils’ learning relevant to the use of information and communications technology (ICT) in primary science. The contributors, who are all experts in their field, draw on practical and theoretical perspectives and: Provide specific examples of software and hardware use in the classroom Consider innovative and creative uses of technology for pupils engaged in science activity in the primary and early years Indicate future possibilities for the use of computer-based technologies Key themes running through the book include: setting the use of ICT in primary science within theoretical perspectives on learning and on pedagogy; the importance of using ICT in developing talking and listening opportunities in the science classroom; and the potential of learning through ICT enhanced science investigations. Contemporary issues such as inclusion, creativity and collaborative learning are also examined, making Teaching and Learning Primary Science with ICT essential reading for students in science education, and for teachers who want to use new technology to improve learning in their science classrooms.
This book analyzes the main Information and Communication Technologies (ICT) used in science education and the main theoretical approaches that support science education mediated by ICT in order to show how digital technologies can be employed in Inquiry-Based Science Education. It presents the results of a comprehensive review of studies focusing both on the use and effects of digital technologies in science education and on the different theoretical approaches that support the use of ICTs in science teaching.By doing so, the book provides a useful summary of the current research in the field and a strong analysis of its limitations. It concludes that there are few studies that report strategies and didactics for the practical use of ICT in science classes and that the use of ICT in science education can’t be seen as an isolated action without a theoretical basis to support it. Based on these conclusions, the volume identifies the main ICTs used in inquiry activities, the main steps in inquiry activities used in science education and their approaches to the use of ICT. It shows that the use of ICT in Inquiry-Based Science Education allows students to develop more active work styles, improved attitudes towards science, better conceptual and theoretical understanding, improved reasoning, better modelling capabilities, and improved teamwork, along with improvements in other abilities. Using ICT in Inquiry-Based Science Education will be a valuable resource for science teachers and science teacher educators looking for an introductory text that presents an overview of the scientific research analyzing the implementation of digital technologies in science teaching and that provides useful insights to all educators interested in using digital technologies to introduce their students in the world of scientific inquiry and research.
This book combines information communication technology (ICT) with the creative interdisciplinary teaching approach known as STEM (science, technology, engineering and mathematics). It introduces STEM and Creative Education and shows (through examples and creative activities) the importance and impact that ICT has for STEM and modern education. The book describes the audio visual classroom, the use of the Internet, Social Networking and STEM and provides STEM lessons for both the real and virtual worlds. Instructors will find this unique textbook to be very useful with students, of various ages, in creative education and engineering classes. This special book offers something for everyone. It serves as a guide for teachers in charge of science fairs and creative classes, especially those which require STEM education. It also includes activities to help develop creative thinking and problem-solving skills and prepares students who plan to become teachers and mentors of the future. Readers in general can simultaneously enjoy and learn about ICT’s impact on STEM and modern education. In addition, e-learning designers and administrators who want to introduce e-learning systems into their organizations can refer to this book as a reference and a resource. The book complements most e-learning and ICT education books which generally focus too much on technical issues.
Providing practical guidance on enhancing learning through ICT in science, this book is made up of a series of projects that supplement, augment and extend the QCA ICT scheme and provide much-needed links with Units in other subjects’ schemes of work. It includes: fact cards that support each project and clearly outline its benefits in relation to teaching and learning examples of how activities work in 'real' classrooms links to research, inspection evidence and background reading to support each project adaptable planning examples and practical ideas provided on accompanying downloadable resources. This book is essential reading for all trainee and practising primary teachers.
With a strong focus on helping children to learn the 'big ideas' in science, this book provides detailed and practical guidance on how to use ICT to support creative science teaching. Emphasizing learning science 'through' the technology rather than 'from' it, the book strikes a good balance between practical and academic dimensions through: practical suggestions on how to plan schemes of work and lessons case studies that highlight how ICT can be incorporated into cross-curricular themes of study examples of real science lessons advice on organizing learning in 'out of school' settings' Written with the standards for achieving qualified teacher status in mind, this user-friendly text is a vital resource for all students on initial teacher training courses and newly qualified teachers at primary level.
"This book provides research regarding introducing, collaborating, analyzing, synthesizing, and evaluating innovative contributions to the theory, practice, and research of technology education applicable to K-12 education, higher education, and corporate and proprietary education"--Provided by publisher.
Teaching and Learning with ICT in the Primary School introduces teachers to the range of ways in which ICT can be used to support and extend the teaching and learning opportunities in their classrooms. Chapters cover areas such as: literacy, numeracy, science, and their relationship with ICT; managing curriculum projects using ICT; creating and using multimedia applications. Ideas and activities for teachers to try are based on tried and tested methods from innovative schools around the UK and abroad. Practising teachers and students will find this an invaluable guide on how to work together to extend their skills and knowledge in the area of ICT.
Master's Thesis from the year 2011 in the subject Computer Science - Didactics, University of Twente (Behavioural Science), course: ICT in science and mathematics - Educational Science and Technology, language: English, abstract: This study investigated the ways through which pre-service science and mathematics teachers at Dar es Salaam University College of Education (DUCE) can acquire competencies for integrating technology pedagogy and content in teaching. Specifically the study investigated the preservice teachers' ICT integration competencies; practices that can be effective in enhancing pre-service science and mathematics teachers' competency in integrating technology, pedagogy and content; as well as the impact of those practices in the development of preservice teachers' technological pedagogical content knowledge. An action research approach was employed in the study, employing the pre and post-intervention assessment of preservice teachers' knowledge on technology, pedagogy and content. Planed interventions were carried out during the study, to enable preservice teachers to identify areas of weaknesses in their technology integration competencies, and propose alternative approaches for addressing the identified weaknesses. Student questionnaire, instructor interview and observation checklist were used to collect date before, during and after intervention. Researcher's log book, digital camera and audio recorder were used in recording events and activities taking place during the study. Findings revealed that when preservice teachers engage in hands on activities such as microteaching, lesson design and the opportunity to share their ideas with peers, they easily developed their technological pedagogical content knowledge. An analysis of knowledge change after the intervention, showed a significant difference between pre-intervention and post intervention preservice teachers' knowledge of TPACK. It is therefore concluded that, the adoption of hands on ac