The Physics of Everyday Phenomena: A Conceptual Introduction to Physics |
Contents
The Newtonian Revolution | 17 |
Falling Objects and Projectile Motion | 36 |
Newtons Laws Explaining Motion | 58 |
Copyright | |
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acceleration alpha particles angle angular momentum atoms average axis ball battery beam Bernoulli's principle Bohr model bulb centripetal acceleration chapter circuit coil collision compute concept constant curve diagram direction displacement distance earth effect electric field electromagnetic electrons equal example exerted experiments Explain fission flow fluid force acting frequency frictional force graph gravity heat engine horizontal hydrogen ideas increase initial internal energy involved kinetic energy larger lens light rays magnetic field magnitude mass measure metal mirror moon motion moving negative neutrons Newton's second law nuclear nucleus object observed orbit particles physics plane positive charge potential energy pressure produce protons quantity quarks reaction reactor relative resistance result rotational inertia rotational velocity shown in figure simple Slinky specific heat capacity speed string surface temperature tion torque traveling tube uranium vector voltage wavelength waves weight wire zero