Turning the World Inside Out and 174 Other Simple Physics Demonstrations
Robert Ehrlich
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Naturwissenschaften, Medizin, Informatik, Technik / Physik, Astronomie
Beschreibung
". . . dipping into this collection is much like opening a holiday gift and discovering a marvelous little toy that then holds your attention by some curious performance. . . . This book precisely reflects the way science education should be, especially at the introductory level." --From the foreword
Here is a collection of physics demonstrations costing very little to produce yet illustrating key concepts in amazingly simple and playful ways. Intended for instructors, students, and curious lay readers, these demonstrations make use of easily accessible, everyday items: food coloring and glycerine swirled and then "unmixed" in a container demonstrate aspects of the entropy law; raw eggs thrown with full force at a sheet but not breaking illustrate Newton's second law (f=ma); and the reflection off a glass Christmas tree ball is the focus of an explanation on "turning the world inside out." Many of the demonstrations are either new or include innovative twists on old ideas, as in the author's simplified version of the classic "Monkey and Hunter" problem, which substitutes "diluted gravity" on an inclined plane for large apparatus. Each demonstration outlines the objective, the equipment needed, and the procedure, including, in many instances, ways for a teacher to perform the demonstration on an overhead projector. Throughout the book concrete examples are accompanied by enough theoretical background to enhance a reader's basic understanding of physical principles. Lab instructors will find that demonstrations containing a quantitative component work well as mini- experiments and as ways to illustrate the results of calculations. These diverse and flexible demonstrations will serve a wide range of educational levels, from middle school physical science to university physics.
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Inelastic collision, Centrifugal force, Axle, Magnet, Newtonian fluid, Wavelength, Capacitor, Ray (optics), Gravitational acceleration, Friction, Newton's laws of motion, Effective mass (solid-state physics), Terminal velocity, Classical physics, Dowel, Angular momentum, Moment of inertia, Styrofoam, Electric light, Plastic, Proportionality (mathematics), Circular polarization, Ruler, Neodymium magnet, Aluminium foil, Longitudinal wave, Meissner effect, Magnetic field, Magnet wire, Acceleration, Inverse-square law, Magnetic flux, Atomic nucleus, Aluminium, Cathode ray, Radioactive decay, Temperature, Electromagnetic induction, Holography, Overhead projector, Superconductivity, Thermometer, Center of mass, Chicken wire (chemistry), Magnetic levitation, Voltmeter, Total internal reflection, Momentum, Oscilloscope, Vortex ring, Liquid nitrogen, Electromagnet, Coriolis force, Bernoulli's principle, Diffraction, Artificial gravity, Newton's law of cooling, Thermodynamics, Chaos theory, Faraday's law of induction, Drag (physics), Lenz's law, Slinky, Ray tracing (graphics), Elastic collision, BB gun, Accelerometer, The Flying Circus of Physics, Eddy current, Photon