Huggins E.R. — Physics 2000 :: Электронная библиотека попечительского совета мехмата МГУ

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Huggins E.R. — Physics 2000

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Название: Physics 2000

Автор: Huggins E.R.

Аннотация:

Physics2000 is a calculus based, college level introductory physics course that is designed to include twentieth century physics throughout. This is made possible by introducing Einstein's special theory of relativity in the first chapter. This way, students start off with a modem picture of how space and lime behave, and are prepared to approach topics such as mass and energy from a modern point of view.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2000

Количество страниц: 1123

Добавлена в каталог: 23.10.2012

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Предметный указатель

Thermal photons in blackbody radiation      34—22
Thermometer, Ideal gas      17—20
Thermometer, Mercury or alcohol      17—9
Thermometer, Temperature scales      17—10
Thin lenses      Optics-23
Thought experiments, Carnot cycle      18—4
Thought experiments, Causality      1—36
Thought experiments, Lack of simultaneity      1—32
Thought experiments, Light pulse clock      1—13
Thought experiments, Lorentz contraction and space travel      1—22
Thought experiments, Magnetic force and Faraday's law      30—3
Thought experiments, No width contraction      1—28
Thought experiments, Origin of magnetic forces      28—8
Thought experiments, Two slit experiment and the uncertainty principle      40—9
Three degree cosmic radiation      int-30 34—27
Three degree cosmic radiation, Penzias and Wilson      34—27
Tides, two a day      8—12
Time and the speed of light      int-2
Time constant for RC circuit      27—24
Time constant, Measuring from a graph      27—25 Cal-1—34
Time in early universe      int-27 34—29
Time reversal, Dive movie      18—1
Time reversal, Water droplets      18—2
Time reversed movie of dive      18—1
Time step and initial conditions      5—14
Time, Age of sun      34—23
Time, Behavior of      1—1
Time, dilation      1—22
Time, Dilation formula      1—16
Time, direction of and strobe photographs      3—27
Time, Direction of, Entropy      18—26
Time, Direction of, Neutral K meson      18—26
Time, Measuring short times using uncertainty prin, ciple      40—22
Time, Moving clocks      1—13
Time, Muon lifetime movie      1—21
Time, On light pulse clock      1—14
Time, On other clocks      1—18
Time, On real clocks      1—20
Time, Steady state model of universe      34—25
Time-energy form of the uncertainty principle      40—19
Top quark, Mass of      int-24
Top quark, Quark family      int-24
Toroid in LC experiment      31—11
Toroid in resonance      31—14
Toroid, Inductor      31—6
Toroid, magnetic field of      29—17
Toroid, Speed of light measuerment      1—9 31—15
Torque as angular force      12—15
Torque in torsion pendulum      14—12
Torque, On a current loop      31—20
Torsion pendulum      14—12
Total energy, Classical hydrogen atom      35—3
Total energy, Escape velocity      10—28
Total energy, Satellite motion      8—36
Town water supply, hydrodynamic voltage      23—18
Transients      14—27
Translation and rotation      12—24
Transmitted wave and lenses      36—3
Traveling waves, formula for      15—16
Tritium, a hydrogen isotope      int-17 19—7
True BASIC      (see BASIC program)
Tubes of flux      24—17
Two dimensional standing waves      37—8
Two kinds of vector fields      30—18
Two lenses together      Optics-29
Two slit experiment and the uncertainty principle      40—9
Two slit experiment for light      33—10
Two slit experiment, A closer look at      33—26
Two slit experiment, First maxima      33—8
Two slit experiment, Measurement limitations      40—9
Two slit experiment, One particle at a time      40—3
Two slit experiment, One slit experiment      40—2
Two slit experiment, Particle point-of view      40—3
Two slit experiment, Particle/wave nature      40—2
Two slit experiment, Using electrons      40—3
Two-slit interference patterns      33—6
Tycho Brahe’s apparatus      8—25
Uhlenbeck and Gaudsmit, electron spin      39—1
Ultraviolet light, Electromagnetic spectrum      int-7 32—20 32—22
Ultraviolet light, Photon energies      34—11
Ultraviolet light, Wavelength of      32—20
Uncertainty principle      Cal-1—3
Uncertainty principle and definition of velocity      4—1 Cal-1—3
Uncertainty principle and strobe photographs      4—2 Cal-1—4
Uncertainty principle, $\Delta x\Delta\rho=h$       40—15
Uncertainty principle, Applied to projectile motion      4—2 Cal-1—4
Uncertainty principle, Elementary particles, short lived      40—23
Uncertainty principle, Energy conservation      40—24
Uncertainty principle, Fourier transform      40—20
Uncertainty principle, Introduction to      40—14
Uncertainty principle, Partide/wave nature      int-10
Uncertainty principle, Position-momentum form      40—15
Uncertainty principle, Single slit experiment      40—16
Uncertainty principle, Time-energy form      40—19
Uncertainty principle, Used as clock      40—22
Unit of angular momentum      int-9
Unit of angular momentum in Bohr theory      35—9
Unit of angular momentum, Electron spin      39—3
Unit test charge      24—11
Unit vectors      8—18
Units, Atomic units      19—22
Units, CGS, centimeter, gram, second Back cover      1
Units, CGS, Coulomb's la w      24—2
Units, CGS, Statamp, statvolt, ergs per second      24—2
Units, Checking MKS calculations      24—3
Units, MKS, Ampere, volt, watt      24—2
Units, MKS, Coulomb's law      24—2
Units, MKS, Meter, kilogram, second Front cover      2
Units, Planetary units      8—14
Units, Practical System of units (MKS)      10—31
Universe as a laboratory      int-1
Universe, 10 to the 14 degrees      int-27
Universe, 13.8 seconds      int-28
Universe, 24% neutrons      int-28 38
Universe, 38% neutrons      int-27
Universe, age of      int-3
Universe, At various short times      34—30
Universe, At. 7 million years, decoupling      int-29
Universe, Becomes transparent, decoupling      34—31
Universe, Big bang model      34—26
Universe, Books on, Coming of Age in the Milky Way      34—32
Universe, Books on, The First Three Minutes      34—32
Universe, Continuous creation theory      int-4 34—25
Universe, Decoupling (700, 000 Years)      34—31
Universe, Decoupling (700,000 years)      34—31
Universe, Deuterium bottleneck      int-28
Universe, early      (see Universe early)
Universe, early 10 to the 10 degrees      int-27 10
Universe, early 10 to the 13 degrees      int-27 10
Universe, Evolution of, Doppler effect      34—21
Universe, Excess of matter over antimatter      int-27 34—29
Universe, expanding      int-3
Universe, Expanding, Quasars and gravitational lensing      34—19
Universe, Frame#2 (.11 seconds)      34—30
Universe, Frame#3 (1.01 seconds)      34—30
Universe, Frame#4 (13.82 seconds)      34—30
Universe, Frame#5 (3 minutes and 2 seconds)      34—30
Universe, Helium abundance      34—26
Universe, Helium abundance in      34—26
Universe, Helium created      int-28
Universe, Hot      int-4
Universe, Matter particles survive      int-27 34—29
Universe, models of      34—23
Universe, Neutrinos escape at one second      int-28
Universe, Overview      int-27 34—29
Universe, Positrons annihilated      int-28
Universe, Red shift      33—24
Universe, Steady state model of      34—25
Universe, The First Three Minutes      34—32
Universe, Thermal equilibrium of      34—28

Universe, Thermal photons      int-29 34—28
Universe, Three degree cosmic radiation      int-30 34—27 34—32
Universe, Transparent universe      int-29
Universe, Visible      int-3 34—32
Universe, Why it is hot      34—29
Up quark      int-24
Uranium, Binding energy per nucleon      20—10
Uranium, Nuclear fission      20—4
Uranium, Nuclear structure      int-17 20—2
Van Allen radiation belts      28—32
van de Graaff generator      26—6
Variable names, computer      5—6
Variables, Evaluated over interval      Cal-1—10
Vector in component form      2—10
Vector, addition      2—3
Vector, Addition by components      2—9
Vector, Angular momentum      7—14 12—7
Vector, Angular velocity      12—7
Vector, Area      24—22
Vector, Component equations      Cal-1—8
Vector, components      2—8
Vector, Constant acceleration formulas      4—11
Vector, cross product      12—9
Vector, Definition of acceleration      Cal-1—7
Vector, Definition of velocity      Cal-1—6
Vector, dot product      10—13
Vector, electric field      24—10
Vector, Equations, Components with derivatives      4—6 Cal-1—7
Vector, Exercise on      2—7 2—8
Vector, Formula for      2—17
Vector, Interpretation of      2—14
Vector, magnetic field      28—10
Vector, magnitude of      2—17
Vector, Measuring length of      3—9
Vector, multiplication      2—11
Vector, Multiplication, cross product      2—15 12—9
Vector, Multiplication, scalar or dot product      2—12 10—13
Vector, Right hand rule      12—10
Vector, Two kinds of      30—18
Vector, Vector fields      23—3
Vector, Velocity from coordinate vector      3—13
Vectors      2—2
Vectors, Arithmetic of      2—3
Vectors, Associative law      2—4
Vectors, Commutative law      2—4
Vectors, coordinate      3—11
Vectors, Displacement      2—2
Vectors, From Strobe Photos      3—5
Vectors, Graphical addition and subtraction      3—10
Vectors, Multiplication by number      2—5
Vectors, Negative of      2—5
Vectors, subtraction of      2—5
Vectors, unit      8—18
Velocity      3—11
Velocity and the uncertainty principle      4—2 Cal-1—4
Velocity detector, Air cart      30—5
Velocity detector, Flux of      23—8 24—15
Velocity detector, Magnetic flux      30—25
Velocity detector, Of a line source      23—7
Velocity detector, Of a point-source      23—6
Velocity detector, Velocity field      23—2
Velocity field      23—2
Velocity vector from coordinate vector      3—13
Velocity, angular      12—2 14—5
Velocity, Angular analogy      12—3
Velocity, Calculus definition of      4—3 Cal-1—5
Velocity, Component equations      Cal-1—8
Velocity, Curve, area under      Cal-1—12
Velocity, Definite integral of      Cal-1—11
Velocity, From strobe photograph      3—26
Velocity, instantaneous      3—24
Velocity, Integral of      Cal-1—10
Velocity, Of escape      10—28
Velocity, tangential      12—4
Velocity, Using strobe photos      3—11
Venturi meter, Bernoulli's equation      23—15
Venturi meter, With superfluid helium      23—17
Very Large Array, radio telescopes      Optics-48
Very Long Baseline Array, radio telescopes      Optics-49
Violets, odor of      17—6
Violin, Acoustic vs electric      16—19
Violin, Back, standing waves on      16—23
Viscous effects in fluid flow      23—19
Visible light      int-7 32—20
Visible light, Photon energies      34—11
Visible light, Spectrum of      33—15
Visible light, Wavelength of      32—20
Visible universe      int-3 34—32
Volt, electron      26—12
Volt, MKS units      24—2
Voltage and current      27—6
Voltage and current, Ohm’s law      27—7
Voltage and current, Resistors      27—6
Voltage source, constant      27—15
Voltage transformer and magnetic flux      30—26
Voltage, Air cart speed detector      30—5
Voltage, Divider, circuit for      27—13
Voltage, Electric      25—6
Voltage, Fluid analogy, Hydrodynamic voltage      23—17
Voltage, induced      31—4
Voltage, Induced in a moving loop      30—4
Voltage, Resistance      27—7
Voltage, Town water supply      23—18
Volume of mole of gas      17—25
Vortex street, Karman      14—25
Vortex, Bathtub      23—2 23—20
Vortex, Hurricane      23—20
Vortex, Tornado      23—20
Vortices      23—20
Vortices, Quantized in superfluids      23—22
W and Z mesons, electroweak interaction      int-26
Water droplets, time reversal      18—2
Water, Evaporating      17—5
Water, molecule      17—2
Watt, MKS units      24—2
Wave equation      int-7 15—1
Wave equation for light      int-7
Wave equation, Bohr magneton      39—5
Wave equation, Dirac's      15—2
Wave equation, Discovery of      37—1
Wave equation, Maxwell's      15—1
Wave equation, Nonrelativistic      int-12 34—16
Wave equation, Relativistic      int-12 15—2
Wave equation, Schroedinger's      15—1
Wave equation, Spin      39—3
Wave motion, Amplitude and phase      15—17
Wave motion, Linear and nonlinear      15—10
Wave motion, One dimensional      15—1
Wave motion, Principle of superposition      15—11
Wave nature of light, Young, Thomas      34—1
Wave patterns, Hydrogen, Intensity at the Origin      38—5
Wave patterns, Probability interpretation      40—6
Wave patterns, Schrodinger’s equation      38—2
Wave patterns, Standing waves      38—3
Wave patterns, Two slit experiment      40—2
Wave pulses      15—3
Wave pulses, Speed of      15—4
Wave, Circular water waves      33—2
Wave, Cosine waves      16—28
Wave, De Broglie, standing wave movie      35—11
Wave, Diffraction pattern      33—5
Wave, Electromagnetic waves      32—18
Wave, Electron waves in hydrogen      38—1
Wave, Electron waves, de Broglie picture      35—11
Wave, Forms, repeated in Fourier analysis      16—11
Wave, Formulas for      15—20
Wave, Fourier analysis, Of a sine wave      16—7
Wave, Fourier analysis, Of a square wave      16—9
Wave, Frequency of      15—21
Wave, Huygens' principle, introduction to      33—4

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