Sound and light aren’t just sensations picked up by our senses—they’re examples of science at work in the wonderful world around us! Budding scientists will delight in the text’s age-appropriate exper
Energy comes in many forms, including sound, heat, electricity, and light, and is perpetually at work all around us. As the inquisitive scientists in this book, readers will come to recognize some key
Engaging experiments using simple toys and everyday stuff teach curious young minds all about light and sound. Readers can take an up-close look at how sound vibrations work, what pitch is, how reflec
Engaging experiments using simple toys and everyday stuff teach curious young minds all about light and sound. Readers can take an up-close look at how sound vibrations work, what pitch is, how reflec
A vibrant and hands-on approach to practical science experiments. Discover it Yourself: Sound and Light is packed with scientific facts, experiments, and activities linked to sound and light. Keen sci
George Frederick Charles Searle (1864–1954) was a British physicist who worked at the Cavendish Laboratory in Cambridge for 55 years. In this book, which was first published in 1934, Searle presents details on a selection of experiments relating to mechanics, elasticity, surface tension, viscosity, heat and sound. Illustrative figures and textual notes are incorporated throughout. This book will be of value to anyone with an interest in physics, the history of education and the history of science.
Clearly illustrated, well-written text invites youngsters to perform experiments dealing with chemistry, astronomy, magnetism and electricity, weather, water, the body, sound and light, measurement an
In his study of optics, Newton postulated that light, like sound, must be carried through a medium, and that this medium must exist even in a vacuum. By the late nineteenth century, this theoretical substance was known as the luminiferous ether. But the ether theory faced several problems. If the earth moved through ether, there would be ether wind, and light travelling against the flow would move more slowly than light travelling with it. That was soon disproven. Nor could the ether be stationary: by 1905, Einstein's work on relativity had disproven absolute motion. In this fascinating advocacy of ether, first published in 1933, Sir Oliver Lodge (1851–1940) fiercely defends ether against the new physics, arguing for solid models over mathematical abstractions, and urging new ether experiments. With in-depth references to Einstein, Jeans and Eddington, this book is still relevant to students in the history of science.
Delve into astronomy, chemistry, weather, physics, geology, and more with interactive experiments in this fun, hands-on kit! Learn about materials and matter, sound and light, motion and gravity, elec
Originally published in 1901, this book was intended for students of physics to become acquainted with the principles and methods of accurate measurement in laboratories. Aimed as a reference guide for undergraduates to develop and reinforce their understanding of elementary physics, the book is divided into six sections: preliminary, general physics, heat, sound, light, and magnetism and electricity. Within each of these sections, multiple experiments are contained and instructions are provided on how to carry out each experiment, whilst notes are also provided for teachers on how to measure and check accurately the results obtained. Multiple diagrams and tables are also included throughout to assist with learning. This book will be a valuable resource to students, teachers and researchers of physics and to anyone with an interest in the history of science education.