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| Ïîèñê ïî óêàçàòåëÿì |
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| Huggins E.R. — Physics 2000 |
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| Ïðåäìåòíûé óêàçàòåëü |
Electric field, Direction of, when created by magnetic flux 31—3
Electric field, Electric field continued, Introduction to 24—10
Electric field, Energy density in 27—19
Electric field, Equipotential lines 25—3
Electric field, Flux, definition of 24—15
Electric field, Gauss’law 24—20
Electric field, Inside a conductor 26—1
Electric field, Integral of E.dl meter 30—20
Electric field, Line integral of 30—14
Electric field, Lines 24—12
Electric field, Mapping 24—12
Electric field, Mapping convention for 24—17
Electric field, Of a line charge, Using calculus 24—6
Electric field, Of a line charge, Using Gauss' law 24—21
Electric field, Of electromagnet 30—15
Electric field, Of static charges, conservative field 30—2 30—16
Electric field, Radiation by line charge 32—28
Electric field, Radiation by point-charge 32—30
Electric field, Van de Graaff generator 26—6
Electric force law in CGS units 19—8
Electric force law, Four basic interactions 19—2
Electric force law, Introduction to 19—7
Electric force law, Lorentz force law, electric and magnetic forces 28—15
Electric force or interaction int-6 Int
Electric force or interaction, Atomic&molecular forces 19—1
Electric force or interaction, Comparison to gravity int-6 19—8
Electric force or interaction, Comparison to nuclear force int-18 20—2
Electric force or interaction, Electroweak theory int-26
Electric force or interaction, Origin of magnetic forces 28—6
Electric force or interaction, Strength of, Between garden peas 28—2
Electric force, Between garden peas 19—12
Electric force, Produced by a line charge 24—6
Electric force, Produced by a short rod 24—9
Electric potential energy (see Potential energy: Electric)
Electric potential energy and molecular force 17—12
Electric potential energy in classical hydrogen atom 35—3
Electric potential energy in hydrogen atom int-11
Electric potential energy in hydrogen molecule ion 19—21
Electric potential energy in nuclear fission int-18 20—5
Electric potential energy, Contour map of 25—1
Electric potential energy, Negative and positive 25—4
Electric potential energy, Of a point-charge 25—5
Electric potential energy, Plotting 25—7
Electric potential energy, Potential, plotting, Storage in capacitors 27—18
Electric potential, Contour map 25—1
Electric potential, Field plots 25—1
Electric potential, Of a point-charge 25—5
Electric potential, Plotting experiment 25—7
Electric voltage (see also Voltage)
Electric voltage, Introduction to 25—6
Electric voltage, Van de Graaff generator 26—6
electrical capacitance 27—16 (see also Capacitor)
Electrically neutral int-6
Electromagnet 31—28
Electromagnetic radiation, Energy radiated by classical H atom 35—3
Electromagnetic radiation, Observed by telescopes, Infrared Optics-46
Electromagnetic radiation, Observed by telescopes, Radio Optics-48
Electromagnetic radiation, Observed by telescopes, Visible Optics-42
Electromagnetic radiation, Pulse 32—10
Electromagnetic radiation, Pulse, Analysis of path 1 32—14
Electromagnetic radiation, Pulse, Analysis of path 2 32—16
Electromagnetic radiation, Pulse, Calculation of speed 32—14
Electromagnetic spectrum int-7 32—20 34—11
Electromagnetic spectrum, Photon energies 34—11
Electromagnetic waves 32—18
Electromagnetic waves, Probability wave for photons 40—7
Electron binding and the periodic table 38—11
Electron binding energy and the periodic table 38—11
Electron binding energy in classical hydrogen molecule ion 19—23
Electron binding energy, A classical approach 19—21
Electron diffraction experiment 36—8
Electron diffraction experiment, Diffraction tube 36—9
Electron gun in magnetic field, Bend beam in circle 28—20
Electron gun in magnetic field, Magnetic focusing 28—29
Electron gun used to define 26—12
Electron gun, Accelerating field 26—10
Electron gun, Electron volt 26—12
Electron gun, Equipotential plot 26—11 26—13
Electron gun, Filament 26—9
Electron gun, Introduction to 26—8
Electron in classical hydrogen atom 35—2
Electron in the hydrogen molecule ion 19—21
Electron positron pair 34—17
Electron scattering, Chapter on scattering 36—1
Electron scattering, First experiment on wave nature 35—12
Electron screening, periodic table 38—10
Electron type neutrino int-22
Electron volt as a Unit of Energy 19—21 26—12
Electron waves in hydrogen 38—1
Electron waves, Davisson&Germer experiment 35—12
Electron waves, De Broglie picture 35—11
Electron waves, Scattering of 35—12
Electron waves, Wavelength of 36—9
Electron, Beam, magnetic deflection 28—9
Electron, charge on 19—8
Electron, Diffraction Pattern 36—10
Electron, Lepton family int-22
Electron, Mass in beta decay 6—7
Electron, Motion of in a magnetic field (see Experiments II -5- Motion of electrons in a magnetic field)
Electron, radius 39—3
Electron, Rest energy in electron volts 26—12
Electron, Spin and hydrogen wave patterns 38—9
Electron, Spin resonance (see Experiments II —12— Electron spin resonance)
Electron, Spin resonance, Details of experiment 39—9
Electron, Spin resonance, Introduction to 39—5
Electron, Spin, Chapter on 39—1
Electron, Stability of 19—14
Electron, Two slit experiment for 40—3
Electroweak interaction 19—3
Electroweak interaction, Theory of int-26
Electroweak interaction, Weak interaction int-26
Electroweak interaction, Z and W mesons int-26
Electroweak interactions 19—3
Elementary particles, A confusing picture int-22
Elementary particles, Short lived 40—23
Elements, abundance of 34—24
Elements, Creation of int-4
Elements, table of 19—5
Ellipse, Becoming a parabola Optics-4
Ellipse, Drawing one 8—26 Optics-3
Ellipse, focus of 8—26 Optics-3
Empty space, quantum fluctuations 40—25
Energy density in an electric field 27—19
Energy flow diagrams for reversible engines 18—15
Energy from sun, proton cycle 34—24
Energy level 35—1
Energy level diagram, Balmer series 35—6
Energy level diagram, Bohr theory 35—4
Energy level diagram, Expanded 38—8
Energy level diagram, Lyman series 35—6
Energy level diagram, Model atom 37—4
Energy level diagram, Paschen series 35—6
Energy level diagram, Photon in laser 37—4
Energy loss during collisions 11—14
Energy, Bernoulli's equation 23—10
Energy, black holes 10—29
Energy, Capacitors, storage in 27—18
Energy, Chapter on 10—1
Energy, Conservation of energy and the uncertainty principle 40—24
Energy, Conservation of energy in collisions 11—14
Energy, Conservation of energy in satellite motion 8—35
Energy, Conservation of energy, Conservative and non-conservative forces 10—21
Energy, Conservation of energy, Derivation from work theorem 10—20
Energy, Conservation of energy, Feynman story 10—2
Energy, Conservation of energy, Mass on spring 14—11
Energy, Conservation of energy, Neutrinos in beta decay 11—20
Energy, Conservation of energy, Overview int-11
Energy, Conservation of energy, Work energy theorem 10—20
Energy, Gravitational potential energy int-11 8—35
Energy, Gravitational potential energy in a room 10—25
| Energy, Gravitational potential energy in satellite motion 8—36 10—26
Energy, Gravitational potential energy in stellar evolution 20—13
Energy, Gravitational potential energy, Bernoulli's equation 23—10
Energy, Gravitational potential energy, Black holes 10—29
Energy, Gravitational potential energy, Introduction to 10—8
Energy, Gravitational potential energy, Modified 8—37
Energy, Gravitational potential energy, On a large scale 10—22
Energy, Gravitational potential energy, Zero of 10—22
Energy, Joules and Ergs 10—4
Energy, kinetic energy int-8
Energy, Kinetic energy in collisions 11—14
Energy, Kinetic energy in model atom 37—5
Energy, Kinetic energy, Always positive 8—35
Energy, Kinetic energy, Bohr model of hydrogen 35—3
Energy, Kinetic energy, Classical hydrogen atom 35—3
Energy, Kinetic energy, Electron diffraction apparatus 36—9
Energy, Kinetic energy, Equipartition of energy 17—28
Energy, Kinetic energy, Escape velocity 10—28
Energy, Kinetic energy, Hydrogen molecule ion 19—21
Energy, Kinetic energy, Ideal gas law 17—18
Energy, Kinetic energy, Nuclear fusion 20—12
Energy, Kinetic energy, Origin of 10—5
Energy, Kinetic energy, Oscillating mass 14—11
Energy, Kinetic energy, Overview int-8
Energy, Kinetic energy, Pendulum 10—10
Energy, Kinetic energy, Relativistic definition of 10—5
Energy, Kinetic energy, Rotational 12—22
Energy, Kinetic energy, Satellite motion 8—36 10—26
Energy, Kinetic energy, Slowly moving particles 10—6 10—29
Energy, Kinetic energy, Temperature scale 17—11
Energy, Kinetic energy, Theorem on center of mass 12—26
Energy, Kinetic energy, Thermal motion 17—6
Energy, Kinetic energy, Translation and rotation 12—24
Energy, Kinetic energy, Work energy theorem 10—18
Energy, kinetic in terms of momentum 37—5
Energy, Magnetic energy of current loop 31—22
Energy, Mass energy int-18 10—3
Energy, Negative and positive potential energy 25—4
Energy, Neutron mass energy int-22
Energy, Nuclear potential energy, Fusion int-18 20—12
Energy, Nuclear potential energy, Nuclear binding 20—9
Energy, Nuclear potential energy, Nuclear energy well. 20—10
Energy, Nuclear potential energy, Nuclear structure int-22
Energy, Pendulum motion, energy in 10—10
Energy, Photon energy 34—9
Energy, Photon pulse, uncertainty principle 40—21
Energy, Potential. See also Potential energy, Powering the sun 34—23
Energy, Rest energy of electron and proton 26—12
Energy, Rotational kinetic energy 12—26
Energy, Spin magnetic energy, Dirac equation 39—15
Energy, Spin magnetic energy, Magnetic moment 39—4
Energy, Spin magnetic energy, Magnetic potential 39—1
Energy, Spring potential energy int-11 10—16 14—11
Energy, Thermal energy int-8 17—7
Energy, Total energy, Classical H atom 35—3
Energy, Total energy, Escape velocity 10—28
Energy, Total energy, Satellite motion 8—36 10—26
Energy, Uncertainty principle, Energy conservation 40—24
Energy, Uncertainty principle, Energy-time form of 40—19
Energy, Uncertainty principle, Fourier transform 40—20
Energy, Voltage as energy per unit charge 25—6
Energy, Work, Conservation of energy int-11
Energy, Work, Definition of 10—12
Energy, Work, Vector dot product 10—13
Energy, Work, Work energy theorem 10—18
Energy, X Ray photons, energy of 36—4
Energy, Zero of potential energy 10—22
Energy, Zero point-energy 37—7
Energy, Zero point-energy, Chapter on 37—1
Energy-time form of the uncertainty principle 40—19
Engines, internal combustion 18—21
Engines, Maximally efficient 18—15
Engines, Reversible, efficiency of 18—18
English program for oscillatory motion 14—31
English program for projectile motion 5—16
English program for satellite motion 8—19
Entropy, Boitzman's formula for 18—24
Entropy, definition of 18—22
Entropy, Number of ways to hang tools 18—23
Entropy, Second law of thermodynamics 18—1
Epicycle in Greek astronomy 8—25
Equations, differential (see Differential equation)
Equations, vector in component form 2—10
Equations, vector, Components with derivatives Cal-1—7
Equilibrium, Balancing weights 13—2
Equilibrium, Chapter on 13—1
Equilibrium, equations for 13—2
Equilibrium, Example - bridge problem 13—9
Equilibrium, Example - wheel and curb 13—5
Equilibrium, How to solve equilibrium problems 13—5
Equilibrium, Thermal equilibrium 17—8
Equilibrium, Working with rope 13—10
Equipartition of energy 17—28
Equipartition of energy, Failure of classical physics 17—31
Equipartition of energy, Freezing out of degrees of freedom 17—32
Equipartition of energy, Normal modes 17—28
Equipartition of energy, Real molecules 17—30
Equipartition of energy, Theory of 17—28
Equipotential lines 25—3
Equipotential lines, Mode 25—10
Equipotential lines, Plotting experiment 2D or 3D 25—8
Equipotential plot for electron gun 26—11
Ergs and joules 10—4
Ergs per second, power in CGS units 24—2
Escape velocity 10—28
Euler's number e=2.7183... Cal-1—17
Evaporation, Of water 17—5
Evaporation, Surface tension 17—14
Even harmonics in square wave 16—28
Evolution, Of stars int-19 17—17 20—13
Evolution, Of stars Neutrinos role in 20—15
Evolution, Of the universe 34—21
Excess of matter over antimatter 34—29
Exclusion principle 38—1 38—9
Exercises, finding them (see Under x in this index)
Expanding gas, work done by 18—5
Expanding universe, Hubble rule for int-3
Expanding universe, Hubble, Edwin int-3
Expanding universe, Red shift 33—24 34—19 34—21
Expansion, Adiabatic, Carnot cycle 18—11
Expansion, Adiabatic, Equation for 18—26
Expansion, Adiabatic, PV Diagrams 18—9
Expansion, Adiabatic, Reversible engines 18—13
Expansion, binomial 1—31 Cal-1—23
Expansion, Isothermal, Carnot cycle 18—11
Expansion, Isothermal, Equation for 18—26
Expansion, Isothermal, PV Diagrams 18—8
Expansion, Isothermal, Reversible engines 18—13
Expansion, thermal 17—33
Expansion, Uniform of the universe int-3
Experimental diffraction pattern 16—33
Experiments I, —10— Oscillatory motion of various kinds 14—2
Experiments I, —11— Normal modes of oscillation 16—4
Experiments I, —12— Fourier analysis of sound waves 16—18
Experiments I, —1— Graphical analysis of projectile motion 3——17
Experiments I, —2— Computer prediction of projectile motion 5—21
Experiments I, —3— Conservation of linear momentum 7—4
Experiments I, —4— Conservation of angular momentum 7—10
Experiments I, —5— Computer analysis of satellite motion 8—23
Experiments I, —6— Spring pendulum 9—4
Experiments I, —7— Conservation of energy Check for in all previous experiments 10—26
Experiments I, —8— Collisions 11—9
Experiments I, —9— The gyroscope 12—18
Experiments II, —10— Diffraction grating and hydrogen spectrum 33—17
Experiments II, —11— Electron diffraction experiment 36—8
Experiments II, —12— Electron spin resonance 39—9
Experiments II, —13— Fourier analysis and uncertainty principle 40—21
Experiments II, —1— Potential plotting 25—7
Experiments II, —2— The electron gun 26—8
Experiments II, —3— The RC circuit 27—22
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