NotesFAQContact Us
Collection
Advanced
Search Tips
Source
Teaching Science253
Laws, Policies, & Programs
Assessments and Surveys
Program for International…2
What Works Clearinghouse Rating
Showing 31 to 45 of 253 results Save | Export
Peer reviewed Peer reviewed
Direct linkDirect link
Tho, Siew Wei; Lee, Tien Tien; Baharom, Sadiah – Teaching Science, 2018
Trends in contemporary science education emphasise the benefits of out-of-school learning experiences to help schools link science with everyday life (Tho, Chan, & Yeung, 2015). With the help of state-of-the-art technology, mobile devices--particularly smartphones--have the ability to work as data-logging tools for students to perform…
Descriptors: Educational Technology, Technology Uses in Education, Telecommunications, Handheld Devices
Peer reviewed Peer reviewed
Direct linkDirect link
King, Donna; Lyons, Terry; Dawes, Les; Doyle, Tanya; O'Loughlin, Megan – Teaching Science, 2018
Connecting schools and teachers with industry and community partners is essential for improving STEM outcomes for students. To address this, two pilot 'STEM Hubs' were created for schools in Brisbane and Townsville that connected secondary STEM teachers with local industry and community partners. The collaboration afforded innovative STEM units to…
Descriptors: STEM Education, Educational Resources, Secondary School Teachers, School Community Relationship
Peer reviewed Peer reviewed
Direct linkDirect link
Mooed, Azra; Kaiser, Susan – Teaching Science, 2018
Most international curricula require students to develop conceptual and procedural understandings along with developing an understanding about the nature of science. Moreover, science education endeavours to produce scientifically literate citizens capable of making informed decisions about the social-scientific issues in their everyday lives;…
Descriptors: Science Instruction, Relevance (Education), Teaching Methods, Student Interests
Peer reviewed Peer reviewed
Direct linkDirect link
Preston, Christine – Teaching Science, 2018
If you think physics is only for older children, think again. Much of the playtime of young children is filled with exploring--and wondering about and informally investigating--the way objects, especially toys, move. How forces affect objects, including: change in position, motion, and shape are fundamental to the big ideas in physics. This…
Descriptors: Science Instruction, Teaching Methods, Toys, Physics
Peer reviewed Peer reviewed
Direct linkDirect link
Yasin, Ruhizan Mohammad; Amin, Latifah; Hin, Kok Kean – Teaching Science, 2018
Research related to the teaching and learning of 21st century biotechnology in additional science in Malaysia is seldom conducted. This study was carried out to find out the problems teachers and students face in biotechnology teaching and learning, and the appropriateness of the inclusion of 21st century skills, namely digital-era literacy skill,…
Descriptors: Science Instruction, Secondary School Science, Biotechnology, Foreign Countries
Peer reviewed Peer reviewed
Direct linkDirect link
Low, David; Malik, Umairia; Wilson, Kate – Teaching Science, 2018
Large gender gaps in performance on questions involving projectile motion have been observed at high school and university level, even amongst high-achieving students. This gap is particularly problematic because projectile motion is typically one of the first topics formally taught in physics, and this may give girls an inappropriately negative…
Descriptors: Gender Differences, Science Instruction, Motion, Scientific Concepts
Peer reviewed Peer reviewed
Direct linkDirect link
Dale, Keith; Dale, Stephen G. – Teaching Science, 2018
The Australian Curriculum (n.d.) describes chemistry as having three interrelated strands, Science Inquiry Skills, Science as a Human Endeavour and Science Understanding. It also states "... the three strands of the Australian Curriculum: Science should be taught in an integrated way". This article will explore a model for integrating…
Descriptors: Foreign Countries, Science Instruction, Secondary School Science, Chemistry
Peer reviewed Peer reviewed
Direct linkDirect link
Preston, Christine – Teaching Science, 2017
If you think of play as "the work of children" (Whitebread, Basilio, Kuvalja & Verma, 2012) then toys are surely the "tools of their trade". The involvement of scientific principles in how they work makes certain toys ideal stimuli for science investigations. This article describes a practical investigation suitable for…
Descriptors: Science Instruction, Teaching Methods, Toys, Young Children
Peer reviewed Peer reviewed
Direct linkDirect link
Teaching Science, 2017
EngQuest, an initiative of Engineers Australia, provides an exciting, non-competitive way for students to participate in free, fun and educational engineering activities involving mathematics, science and technology. This article describes a project designed to teach middle school students how to construct a water catchment system. Water…
Descriptors: Foreign Countries, Science Instruction, STEM Education, Water
Peer reviewed Peer reviewed
Direct linkDirect link
Sharp, Lara – Teaching Science, 2017
The computer game sensation "Minecraft" has become a mainstay amongst school students of all ages. Anecdotally, at Geoscience Australia, we have observed that "Minecrafters" often draw comparisons between their Minecraft experiences and the real world. For some students, the line between reality and fantasy is blurred. At the…
Descriptors: Science Instruction, Foreign Countries, Geology, Teaching Methods
Peer reviewed Peer reviewed
Direct linkDirect link
Pressick-Kilborn, Kimberley; Prescott, Anne – Teaching Science, 2017
A pedagogical innovation was collaboratively designed, implemented and evaluated in the context of a school-university partnership. The innovation had a dual purpose: 1) to provide an opportunity for primary pre-service teachers to develop their understanding and experience of teaching "design and produce" processes (working…
Descriptors: College School Cooperation, Partnerships in Education, Preservice Teachers, Elementary School Teachers
Peer reviewed Peer reviewed
Direct linkDirect link
Prain, Vaughan; Waldrip, Bruce; Sbaglia, Rob; Lovejoy, Val – Teaching Science, 2017
In this paper, we report on a case study of how three teachers personalised learning in science through supporting a group of Year 8 students to engage in individual inquiry projects. The case study demonstrated how heavily transmissive teaching can be avoided by restructuring classes to optimise student group and individual work and timely…
Descriptors: Case Studies, Science Instruction, Inquiry, Student Projects
Peer reviewed Peer reviewed
Direct linkDirect link
Fernando, Primani; Cooper, Rebecca – Teaching Science, 2017
This paper provides a brief introduction to teaching strategies that can be used to support English as Additional Language (EAL) students in learning biology terminology. The paper begins with an overview of EAL students and considers the difficulties that they may face in the classroom along with the challenges that mainstream teachers may have…
Descriptors: Biology, Vocabulary, Science Instruction, English Language Learners
Peer reviewed Peer reviewed
Direct linkDirect link
LeBard, Rebecca J.; Hibbert, D. Brynn; Quinnell, Rosanne – Teaching Science, 2017
New and emerging digital technologies are making an impact on how we practice science, and this has implications on how we teach science. We introduce the concept of the Electronic Laboratory Notebook (ELN) as used in the research environment and describe how we have implemented this as a tool for providing undergraduate science students with an…
Descriptors: Science Instruction, Educational Technology, Technology Uses in Education, Undergraduate Students
Peer reviewed Peer reviewed
Direct linkDirect link
Koul, Anjni – Teaching Science, 2017
This article presents an instructional strategy called Premise-Reasoning- Outcome (PRO) designed to support students in the construction of scientific explanations. Informed by the philosophy of science and linguistic studies of science, the PRO strategy involves identifying three components of a scientific explanation: (i) premise--an accepted…
Descriptors: Educational Strategies, Science Instruction, Science Education, Scientific Concepts
Pages: 1  |  2  |  3  |  4  |  5  |  6  |  7  |  8  |  9  |  10  |  11  |  ...  |  17