Hands-on Science : Magnetism and Static Electricity, Physical Science (matter)


Book Description

The 12 lessons in this unit introduce students to magnetism, magnetic force, magnetic fields, polarity, and static electricity.Also included:materials lists activity descriptions questioning techniques activity centre and extension ideas assessment suggestions activity sheets and visuals The module offers a detailed introduction to the Hands-On Science program (guiding principles, implementation guidelines, an overview of the skills that young students use and develop during scientific inquiry), a list of children's books and websites related to the science topics introduced, and a classroom assessment plan with record-keeping templates.




Hands-on Science


Book Description

The 11 lessons in this module introduce students to concepts related to sound, such as vibrations, pitch, sound waves, insulators and conductors of sound, and amplification. Students explore musical sound production, and design and construct musical instruments. As well, they investigate hearing safety, and noise pollution in the environment. also include activity sheets and other visuals required to implement activities.Also included:materials lists activity descriptions questioning techniques activity centre and extension ideas assessment suggestions activity sheets and visuals The module offers a detailed introduction to the Hands-On Science program (guiding principles, implementation guidelines, an overview of the skills that young students use and develop during scientific inquiry), a list of children's books and websites related to the science topics introduced, and a classroom assessment plan with record-keeping templates.




Hands-On - Physical Science: Electricity and Magnetism Gr. 1-5


Book Description

**This is the chapter slice "Electricity and Magnetism Gr. 1-5" from the full lesson plan "Hands-On - Physical Science"** Get your students excited about energy and all things that move with our Hands-On Physical Science resource for grades 1-5. Combining Science, Technology, Engineering, Art, and Math, this resource aligns to the STEAM initiatives and Next Generation Science Standards. Study balanced and unbalanced forces by dropping different objects to measure the effect of gravity and air resistance on them. Measure the distance of lightning by watching and listening for thunder. Get into groups and make models of water, sound and light waves. Experience static electricity first hand by getting a balloon to magically stick to a wall. Describe a solid, liquid and gas around your home by its properties. Make a compound machine with your classmates by combining at least two simple machines. Each concept is paired with hands-on experiments and comprehension activities to ensure your students are engaged and fully understand the concepts. Reading passages, graphic organizers, before you read and assessment activities are included.







New Science Theory and On The Magnet


Book Description

The first book is basically the New-Science-Theory.com site as on 1 January 2018, for changes since then visit the website with its Sitemap noting updates. It is especially good for those interested in physics theory, concentrating chiefly on the four great physicists William Gilbert, Rene Descartes, Isaac Newton and Albert Einstein - and also having fine sections on Galileo, Kepler, History of Science, Gravity, Light, String Theory, Standard Model Physics, Probability Science, Philosophy of Science and General Image Theory Science. The second book is a new improved English translation of William Gilbert's banned Latin 1600 'De Magnete' or 'On The Magnet'. This is rather easier to read than its two earlier translations, and significantly helps to clarify Gilbert's 'attraction' physics which Newton put as one of the two mathematized physics options and which he is believed to have privately favoured. It is basically a novel signal-response or remote-control physics that may still have relevance.




Quantum Field Theory in Condensed Matter Physics


Book Description

This is an approachable introduction to the important topics and recent developments in the field of condensed matter physics. First, the general language of quantum field theory is developed in a way appropriate for dealing with systems having a large number of degrees of freedom. This paves the way for a description of the basic processes in such systems. Applications include various aspects of superfluidity and superconductivity, as well as a detailed description of the fractional quantum Hall liquid.




New Science Theory


Book Description

New Science Theory by Vincent Wilmot is basically the New-Science-Theory.com website as on 6 April 2022, for any changes since then visit the site where its Sitemap notes any updates. Especially good for those interested in physics and physics history, it concentrates chiefly on the four great physicists Albert Einstein, Isaac Newton, Rene Descartes and William Gilbert. Also here are fine sections covering Galileo, Kepler, Tesla, History of Science, Philosophy of Science, Information Physics, Gravity, Light, Standard Model, String Theory, Probability Science and General Image Theory.




FCS Physical Science L3


Book Description




Atlas of Knowledge


Book Description

The power of mapping: principles for visualizing knowledge, illustrated by many stunning large-scale, full-color maps. Maps of physical spaces locate us in the world and help us navigate unfamiliar routes. Maps of topical spaces help us visualize the extent and structure of our collective knowledge; they reveal bursts of activity, pathways of ideas, and borders that beg to be crossed. This book, from the author of Atlas of Science, describes the power of topical maps, providing readers with principles for visualizing knowledge and offering as examples forty large-scale and more than 100 small-scale full-color maps. Today, data literacy is becoming as important as language literacy. Well-designed visualizations can rescue us from a sea of data, helping us to make sense of information, connect ideas, and make better decisions in real time. In Atlas of Knowledge, leading visualization expert Katy Börner makes the case for a systems science approach to science and technology studies and explains different types and levels of analysis. Drawing on fifteen years of teaching and tool development, she introduces a theoretical framework meant to guide readers through user and task analysis; data preparation, analysis, and visualization; visualization deployment; and the interpretation of science maps. To exemplify the framework, the Atlas features striking and enlightening new maps from the popular “Places & Spaces: Mapping Science” exhibit that range from “Key Events in the Development of the Video Tape Recorder” to “Mobile Landscapes: Location Data from Cell Phones for Urban Analysis” to “Literary Empires: Mapping Temporal and Spatial Settings of Victorian Poetry” to “Seeing Standards: A Visualization of the Metadata Universe.” She also discusses the possible effect of science maps on the practice of science.