Classical Mechanics - Problem Set 2 - Physics, Study notes of Physics

Professor Chris Hammel, Ohio State University (OH), Physics, Classical Mechanics, Problem Set 2, Rest mass of electron, Magnitude of electron charge, Avagadro's Number, Universal gas constant, Boltzmann's Constant, Speed of Light, Planck's Constant, Vacuum permittivity, atmosphere pressure, angstrom, acceleration due to gravity,inertia, mass, height, massless, pivot,kilograms, vertical, circular hoops, diameter, small oscillations, speed, motion, lenghtm width, angular speed, circular orbit, dis

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2010/2011

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Mechanics - Problem Set #2
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  • Mechanics - Problem Set #
Mechanics - Problem Set #2 Rest mass of the electron me = 9.11 ¥ 107% kilogram = 9.11 x 1074 gram Magnitude of the electron charge ¢ = 160 x 10°! coulomb = 4.80 x 107" statcoulomb (est) Avogadro's number No = 6.02 x 10” per mole ‘Universal gas constant R = 8,32 joules/(mole+ K) Boltzmann's constant k= 1.38 x 10773 joule/K = 1.38 x 107! erg/K Speed of light = 3,00 x 10% m/s = 3.00 x 10" m/s Planck's constant = 6.63 x 107 joule « second = 4.14 x 107" eV + second h = hj2n Vacuum permittivity & = 8.85 x 107" coulomb?/(newton « meter”) Vacuum permeability hig = 4x x 1077 weber/(ampere + meter) Universal gravitational constant G = 667 x 107" meter /(kilogram - second”) Acceleration du to gravity g = 9.80 m/s? = 980 em/s* 1 atmosphere pressure Latm = 1.0 x 10% newton/meter® = 1.0 x 10° pascals (Pa) ‘angstrom 1A =1 x 107" meter 1 weber/m? = 1 tesla = 104 gauss