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| Ïîèñê ïî óêàçàòåëÿì |
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| Huggins E.R. — Physics 2000 |
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| Ïðåäìåòíûé óêàçàòåëü |
Computer, Commands, Selected Printing (MOD command) 5—10
Computer, Commands, Variable names 5—6
Computer, English program for projectile motion 5—16 5—19
Computer, English program for satellite motion 8—19
Computer, Plot of electric fields in electron gun 26—13
Computer, Plot of electric fields, Field plot model 25—12
Computer, Plot of electric fields, Of various charge distributions 24—19
Computer, Plotting, A point 5—6
Computer, Plotting, Crosses 5—11
Computer, Plotting, Window 5—7
Computer, Prediction of motion 5—12
Computer, Prediction of motion, Chapter on 5—1
Computer, Prediction of motion, Satellite orbits 8—16
Computer, Prediction of motion, Satellite with modified gravity 8—30
Computer, Program for, Air resistance 5—24
Computer, Program for, Damped harmonic motion 14—34
Computer, Program for, Harmonic motion 14—30
Computer, Program for, Hydrogen molecule ion 19—24
Computer, Program for, Plotting a circle 5—2 5—4 5—11
Computer, Program for, Projectile motion with air resistance 5—22
Computer, Program for, Projectile motion, final one 5—21
Computer, Program for, Projectile motion, styrofoam projectile 5—28
Computer, Program for, Satellite motion 8—21
Computer, Programming, introduction to 5—4
Computer, Satellite motion calculational loop 8—19
Computer, Time Step and Initial Conditions 5—14
Computers, Why they are so good at integration Cal-1—12
Conductors and electric fields, chapter on 26—1
Conductors, Electric field in hollow metal sphere 26—4
Conductors, Electric field inside of 26—1
Conductors, Surface charge density 26—3
Cones, nerve fibers in eye Optics 31
Conical pendulum 9—18
Conical pendulum and simple pendulum 14—17
Conservation of, Angular momentum 8—32
Conservation of, Angular momentum, Deriva tion from F = ma 12—16
Conservation of, Angular momentum, Introduction to 7—9
Conservation of, Electric charge 19—13
Conservation of, Energy and momentum, elastic collisions 11—16
Conservation of, Energy, Feynman's introduction to 10—2
Conservation of, Energy, Mass on spring 14—11
Conservation of, Energy, Uncertainty principle 40—24
Conservation of, Energy, Work Energy Theorem 10—20
Conservation of, Linear and angular momentum, chapter on 7—1
Conservation of, Linear momentum 7—2 11—7
Conservation of, Linear momentum, during collisions 11—13
Conservative force 25—5
Conservative force and non-conservative force 10—21
Conservative force, Definition of 29—6
Conserved field lines, flux tubes 24—17
Constant acceleration formulas, Angular analogy 12—3
Constant acceleration formulas, Calculus derivation 4—9 Cal-1—20
Constant acceleration formulas, Calculus derivation in three dimensions 4—11 Cal-1—22
Constant voltage source 27—15
Constant, integral of Cal-1—13
Continuity equation for electric fields 24—14
Continuity equation for fluids 23—5
Continuous creation theory int-4
Contour map 25—1
Contraction, Lorentz relativistic 1—24
Conversion factors Back cover 1
Cook’s Bay, Moorea, rainbow over Optics 17
Coordinate system, right handed 2—18
Coordinate vector in computer predictions 5—12 8—17
Coordinate vector in definition of velocity vector 3—13
Coordinate vector, Definition of 3—11
Cornea Optics 31
Corner reflector, How it works Optics 7
Corner reflector, On the surface of the moon Optics 7
Cosine function, Amplitude of Cal-1—37
Cosine function, Definition of Cal-1—35
Cosine function, Derivative of Cal-1—38
Cosine waves, Derivative of 14—8
Cosine waves, Fourier analysis lecture 16—28
Cosine waves, Phase of 14—6
Cosmic background neutrinos int-30
Cosmic background radiation int-30 34—27
Cosmic radiation int-30
Cosmic rays int-13
Coulomb's law and Gauss' law, chapter on 24—1
Coulomb's law for hydrogen atom 24—4
Coulomb's law for two charges 24—3
Coulomb's law, Classical hydrogen atom 35—2
Coulomb's law, Units, CGS 24—2
Coulomb's law, Units, MKS 24—2
Coupled air cart system, analysis of 16—12
Covalent bonding 19—15
Cp = Cv + R, specific heats 18—7
Cp and Cv, specific heats 18—6
Crab Nebula 20—16
Creation of antimatter, positron-electron pairs 34—17
Critical damping 14—23
Cross product, Angular momentum 12—11
Cross product, Component formula for 2—17
Cross product, Discussion of 2—15
Cross product, Magnitude of 2—17
Cross product, Review of 12—9
Cross product, Right hand rule 12—10
Crystal, Diffraction by Thin 36—6
Crystal, Graphite, electron diffraction by 36—8
Crystal, Structures, Graphite 36—8
Crystal, Structures, Ice, snowflake 17—4
Crystal, X ray diffraction 36—5
Crystalline lens, eye Optics 31
Current and voltage, Fluid analogy 27—6
Current and voltage, Ohm's law 27—7
Current and voltage, Resistors 27—6
Current loop, Magnetic energy of 31—22
Current loop, Torque on 31—20
Current, electric, Inertia of (inductance) 31—12
Current, electric, Introduction to 27—2
Current, electric, Magnetic force on 31—18
Current, electric, Positive and negative 27—3
Currents, Magnetic force between 28—14 31—19
Curve, Area under, integral of Cal-1—12
Curve, Slope as derivative Cal-1—30
Curve, That increases linearly, integral of Cal-1—13
Curve, Velocity, area under Cal-1—12
Curved surfaces, reflection from Optics 3
Cycle, Carnot 18—11
Damped harmonic motion, Computer program for 14—34
Damped harmonic motion, Differential equation for 14—21
Damping, criti Cal-14—23
Davisson&Germer, electron waves 35—12
De Broglie, Electron waves int-10 35—11
De Broglie, Formula for momentum 35—11
De Broglie, Hypothesis 35—10
De Broglie, Introduction to wave motion 15—1
De Broglie, Key to quantum mechanics 35—1
De Broglie, Wavelength, formula for 35—11
De Broglie, Waves, movie of standing wave model 35—11
Debye, on electron waves 37—1 38—2
Decay, Exponential decay Cal-1—32
Decoupling of light and matter in early universe 31
Definite integral, Compared to indefinite integrals Cal-1—14
Definite integral, Defining new functions Cal-1—15
Definite integral, Introduction to Cal-1—11
Definite integral, Of velocity Cal-1—11
Definite integral, Process of integrating Cal-1—13
Deflection plates in electron gun 26—16
Degrees of freedom, freezing out of 17—32
Degrees of freedom, Theory of 17—28
Depth of field, camera Optics 34
Derivative as a limiting process Cal-1—6 Cal-1—18 Cal-1 23 Cal-1—28 Cal-1—30
Derivative as the Slope of a Curve Cal-1—30
Derivative, Constants come outside Cal-1—24
Derivative, Negative slope Cal-1—31
Derivative, Of exponential function e to the ax Cal-1—29
Derivative, Of exponential function e to the x Cal-1—28
Derivative, Of function x to the n'th power Cal-1—24
| Derivative, Of sine function Cal-1—38
Descartes, explanation of rainbow Optics 16
Description of motion 3—3
Detector for radiated magnetic field 32—26
Diagrams, PV (pressure, volume) 18—8
Differential equation for adiabatic expansion 18—27
Differential equation for damped harmonic motion 14—21
Differential equation for forced harmonic motion 14—25 14—28
Differential equation for LC circuit 31—10
Differential equation for LR circuit 31—9
Differential equation for oscillating mass 14—8
Differential equation, Introduction to 4—14
Differentiation (see also Derivative)
Differentiation and integration as inverse operations Cal-1—18
Differentiation and integration as inverse operations, Velocity and position Cal-1—18 Cal-1—19
Differentiation and integration, Fast way to go back and forth Cal-1—20
Differentiation and integration, Position as integral of velocity Cal-1—20
Differentiation and integration, Velocity as derivative of position Cal-1—20
Differentiation, Chain rule Cal-1—25
Differentiation, More on Cal-1—23
Diffraction grating 33—12 (see also Experiments II: —10— Diffraction grating and hydrogen spectrum)
Diffraction limit, telescopes Optics 45
Diffraction pattern 16—33 33—5
Diffraction pattern for x rays 36—5
Diffraction pattern, Analysis of 36—11
Diffraction pattern, By strand of hair 36—14
Diffraction pattern, Electron 36—10
Diffraction pattern, Of human hair 36—14
Diffraction pattern, Recording 33—28
Diffraction pattern, Single slit 33—27
Diffraction pattern, Student projects 36—13
Diffraction pattern, Two-slit 33—6
Diffraction, By thin crystals 36—6
Diffraction, electron (see Experiments II: —11— Electron diffraction experiment)
Diffraction, Electron diffraction tube 36—9
Diffraction, Of water waves 33—5
Diffraction, X Ray 36—4
Dimensional analysis for predicting the speed of light 15—9
Dimensional analysis for predicting the speed of sound 15—6
Dimensions of, Capacitance Front cover-2
Dimensions of, Electric charge Front cover-2
Dimensions of, Electric potential Front cover-2
Dimensions of, Electric resistance Front cover-2
Dimensions of, Energy Front cover-2
Dimensions of, Force Front cover-2
Dimensions of, Frequency Front cover-2
Dimensions of, Inductance Front cover-2
Dimensions of, Magnetic field Front cover-2
Dimensions of, Magnetic flux Front cover-2
Dimensions of, Power Front cover-2
Dimensions of, Pressure Front cover-2
Dimensions, Period and frequency 14—4
Dimensions, Using for remembering formulas 14—4
Dirac equation, Antimatter int-13 15—2 34—16
Dirac equation, Electron spin 39—3
Dirac equation, Electron spin, Bohr magneton 39—5
Dirac, P. A. M., prediction of antiparticles int-13
Direction an induced electric field 31—3
Direction of time and strobe photographs 3—27
Direction of time, Dive movie 18—1
Direction of time, Entropy 18—25
Direction of time, Neutral K meson 18—25
Direction of time, Rising water droplets 18—3
Discovery of the atomic nucleus 11—19
Disorder, Direction of time 18—25
Disorder, Entropy and the second law of thermodynamics 18—4
Disorder, Formula for entropy 18—24
Displacement vectors, From strobe photos 3—5
Displacement vectors, Introduction to 2—2
Distance, tangential 12—4
Distant galaxies, Hubble photograph int-3
Dive movie, time reversed 18—1
Diver, movie of 11—1
Diverging lenses Optics 26
DO LOOP, computer 5—4
Doppler effect for light 33—22
Doppler effect in Astronomy 33—23
Doppler effect, Astronomer's Z factor 33—23
Doppler effect, Introduction to 33—20
Doppler effect, Relativistic formulas 33—22
Doppler effect, Stationary source, moving observer 33—21
Doppler effect, Universe, evolution of 34—21
Dot product, Definition of 2—12
Dot product, Interpretation 2—14
Dot product, Work and energy 10—13
Down quark int-24
Drums, standing waves on 16—22
Duodenum, medical imaging Optics 15
e - charge on an electron 19—9
E.dl meter 30—18
E=hf, photoelectric effect formula 34—7
E=mc2, mass energy int-11 10—3
Eagle nebula, Big photo of 7—18
Eagle nebula, Hubble telescope photo Optics 44
Eagle nebula, Planet formation 7—16
Ear, human, Inside of cochlea 16—34
Ear, human, Structure of 16—15
Early Universe (see Universe early)
Earth tides 8—12
Earth, Gravitational field inside of 24—24
Earth, mass of 8—8
Eclipse expedition, Eddington 34—19
Edit window for Fourier transform data 16—32
Effective nuclear charge, periodic table 38—12
Efficiency, Of Carnot cycle, calculation of 18—26
Efficiency, Of electric cars 18—19
Efficiency, Of heat pump 18—19
Efficiency, Of reversible engines 18—18
Einstein cross, gravitational lens 34—20
Einstein, general relativity int-15 8—29
Einstein, Mass formula 6—10
Einstein, photoelectric effect int-8
Einstein, Photoelectric effect formula 34—7
Einstein, Principle of relativity, chapter on 1—12
Elastic collisions, conservation, energy, momentum 11—16
Elasticity of rubber 17—35
Electric and weak interactions unified 19—3
Electric cars, efficiency of 18—19
Electric charge, conservation of 19—13
Electric charge, Definition (CGS units) 19—8
Electric charge, Definition (MKS units) 31—19
Electric charge, quantization of 19—14
Electric circuits, Basic 27—1
Electric circuits, Grounding 26—8
Electric circuits, Kirchoff’s law 27—10
Electric circuits, LC circuit, oscillation of 31—10
Electric circuits, LR circuit, exponential decay of 31—9
Electric circuits, Power in 27—9
Electric circuits, RC circuit, Equations for 27—22
Electric circuits, RC circuit, Exponential decay of 27—23
Electric circuits, RC circuit, Half life 27—25
Electric circuits, RC circuit, Initial slope 27—25
Electric circuits, RC circuit, Time constant 27—24
Electric circuits, The voltage divider 27—13
Electric current, Inertia of, due to inductance 31—12
Electric current, Introduction to 27—2
Electric current, Positive and negative 27—3
Electric discharge of Van de Graaff generator 26—7
Electric field and conductors 26—1
Electric field and light int-7 32—20
Electric field in electromagnetic waves 32—18
Electric field, Circular electric field, Introduction to 30—13
Electric field, Circular electric field, Line integral for 30—13
Electric field, Circular electric field, The betatron 30—16
Electric field, Computer plot -3, +5 charges 24—19
Electric field, Computer plotting programs 25—12
Electric field, Continuity equation for 24—14
Electric field, Contour map 25—1
Electric field, Created by changing magnetic flux 31—2
Electric field, Created by moving magnetic field, Lorentz force 30—9
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