1 Introduction, Measurement, Estimating 2 Describing Motion: Kinematics In One Dimension 3 Kinematics In Two Or Three Dimensions; Vectors 4 Dynamics: Newton's Laws Of Motion 5 Using Newton's Laws: Friction, Circular Motion, Drag Forces 6 Gravitation And Newton's Synthesis 7 Work And Energy 8 Conservation Of Energy 9 Linear Momentum 10 Rotationalmotion 11 Angular Momentum; General Rotation 12 Static Equilibrium; Elasticity And Fracture 13 Fluids 14 Oscillations 15 Wave Motion 16 Sound 17 Temperature, Thermal Expansion And The Ideal Gas Law 18 Kinetic Theory Of Gases 19 Heat And The First Law Of Thermodynamics 20 Second Law Of Thermodynamics 21 Electric Charge And Electric Field 22 Gauss's Law 23 Electric Potential 24 Capacitance, Dielectrics, Electric Energy Storage 25 Electric Currents And Resistance 26 Dc Circuits 27 Magnetism 28 Sources Of Magnetic Field 29 Electromagnetic Induction And Faraday's Law 30 Inductance, Electromagnetic Oscillations, And Ac Circuits 31 Maxwell's Equation And Electromagnetic Waves 32 Light: Reflection And Refraction 33 Lenses And Optical Instruments 34 The Wave Nature Of Light: Interference 35 Diffraction And Polarization 36 Special Theory Of Relativity 37 Early Quantum Theory And Models Of The Atom 38 Quantum Mechanics 39 Quantum Mechanics Of Atoms 40 Molecules And Solids 41 Nuclear Physics And Radioactivity 42 Nuclear Energy; Effects And Uses Of Radiation 43 Elementary Particles 44 Astrophysics And Cosmology expand_more
36.1 Galilean-newtonian Relativity 36.2 The Michelson-morley Experiment 36.3 Postulates Of The Special Theory Of Relativity 36.4 Simultaneity 36.5 Time Dilation And The Twin Paradox 36.6 Length Contraction 36.7 Four-dimensional Space-time 36.8 Galilean And Lorentz Transformations 36.9 Relativistic Momentum And Mass 36.10 The Ultimate Speed 36.11 E = Mc2; Mass And Energy 36.12 Doppler Shift For Light 36.13 The Impact Of Special Relativity Chapter Questions expand_more
Problem 1Q: You are in a windowless car in an exceptionally smooth train moving at constant velocity. Is there... Problem 2Q: You might have had the experience of being at a red light when, out of the corner of your eye, you... Problem 3Q Problem 4Q: Does the Earth really go around the Sun? Or is it also valid to say that the Sun goes around the... Problem 5Q: If you were on a spaceship traveling at 0.5c away from a star, at what speed would the starlight... Problem 6Q: The time dilation effect is sometimes expressed as moving clocks run slowly. Actually, this effect... Problem 7Q: Does time dilation mean that time actually passes more slowly in moving reference frames or that it... Problem 8Q Problem 9Q: If you were traveling away from Earth at speed 0.5c, would you notice a change in your heartbeat?... Problem 10Q: Do time dilation and length contraction occur at ordinary speeds, say 90 km/h? Problem 11Q: Suppose the speed of light were infinite. What would happen to the relativistic predictions of... Problem 12Q: Discuss how our everyday lives would be different if the speed of light were only 25 m/s. Problem 13Q: Explain how the length contraction and time dilation formulas might be used to indicate that c is... Problem 14Q: The drawing at the start of this Chapter shows the street as seen by Mr Tompkins, where the speed of... Problem 15Q Problem 16Q: Can a particle of nonzero mass attain the speed of light? Problem 17Q Problem 18Q: If mass is a form of energy, does this mean that a spring has more mass when compressed than when... Problem 19Q Problem 20Q: Is our intuitive notion that velocities simply add, as in Section 39, completely wrong? Problem 1P: (I) A spaceship passes you at a speed of 0.850c. You measure its length 10 be 38.2 m. How long would... Problem 2P Problem 3P: (II) According to the special theory of relativity, the factor that determines the length... Problem 4P: (II) If you were to travel to a star 135 light-years from Earth at a speed of 2.80 108 m/s, what... Problem 5P: (II) What is the speed of a pion if its average lifetime is measured to be 4.40 108 s? At rest, its... Problem 6P: (II) In an Earth reference frame, a star is 56 light-years away. How fast would you have to travel... Problem 7P: (II) Suppose you decide to travel to a star 65 light-years away at a speed that tells you the... Problem 8P: (II) At what speed v will the length of a 1.00-m stick look 10.0% shorter (90.0 cm)? Problem 9P: (II) Escape velocity from the Earth is 11.2 km/s. What would be the percent decrease in length of a... Problem 10P: (II) A friend speeds by you in her spacecraft at a speed of 0.760c. It is measured in your frame to... Problem 11P: (II) At what speed do the relativistic formulas for (a) length and (b) time intervals differ from... Problem 12P: (II) A certain star is 18.6 light-years away. How long would it take a spacecraft traveling 0.950c... Problem 13P: (II) Suppose a news report stated that starship Enterprise had just returned from a 5-year voyage... Problem 14P: (II) An unstable particle produced in an accelerator experiment travels at constant velocity,... Problem 15P: (II) When it is stationary, the half-life of a certain subatomic particle is T0. That is, if N of... Problem 16P: (II) In its own reference frame, a box has the shape of a cube 2.0 m on a side. This box is loaded... Problem 17P: (II) When at rest, a spaceship has the form of an isosceles triangle whose two equal sides have... Problem 18P: (II) How fast must a pion be moving on average to travel 25 m before it decays? The average... Problem 19P: (I) An observer on Earth sees an alien vessel approach at a speed of 0.60c. The Enterprise comes to... Problem 20P: (I) Suppose in Fig. 3611 that the origins of S and S overlap at t = t = 0 and that S moves at speed... Problem 21P: (I) Repeat Problem 20 using the Lorentz transformation and a relative speed v = 1.80 108 m/s, but... Problem 22P: (II) In Problem 21, suppose that the person moves with a velocity whose components are... Problem 23P: (II) Two spaceships leave Earth in opposite directions, each with a speed of 0.60c with respect to... Problem 24P: (II) Reference frame S moves at speed v = 0.92c in the +x direction with respect to reference frame... Problem 25P: (II) A spaceship leaves Earth traveling at 0.61c. A second spaceship leaves the first at a speed of... Problem 26P: (II) Your spaceship, traveling at 0.90c, needs to launch a probe out the forward hatch so that its... Problem 27P: (II) A spaceship traveling at 0.76c away from Earth fires a module with a speed of 0.82c at right... Problem 28P Problem 29P: (II) A stick of length 0, at rest in reference frame S, makes an angle with the x axis. In... Problem 30P: (III) In the old West, a marshal riding on a train traveling 35.0 m/s sees a duel between two men... Problem 31P: (III) Two lightbulbs, A and B, are placed at rest on the x axis at positions xA = 0 and xB = +. In... Problem 32P: (III) An observer in reference frame S notes that two events are separated in space by 220 m and in... Problem 33P: (III) A farm boy studying physics believes that he can fit a 12.0-m long pole into a 10.0-m long... Problem 34P: (I) What is the momentum of a proton traveling at v = 0.75c? Problem 35P Problem 36P: (II) A particle of mass m travels at a speed v = 0.26c. At what speed will its momentum be doubled? Problem 37P: (II) An unstable particle is at rest and suddenly decays into two fragments. No external forces act... Problem 38P Problem 39P Problem 40P Problem 41P: (I) The total annual energy consumption in the United States is about 8 1019 J. How much mass would... Problem 42P Problem 43P Problem 44P Problem 45P: (II) How much energy can be obtained front conversion of 1.0 gram of mass? How much mass could this... Problem 46P: (II) To accelerate a particle of mass m from rest to speed 0.90c requires work W1. To accelerate the... Problem 47P Problem 48P Problem 49P Problem 50P Problem 51P: (II) What is the speed of a proton accelerated by a potential difference of 125 MV? Problem 52P: (II) Two identical particles of mass m approach each other at equal and opposite speeds, v. The... Problem 53P: (II) What is the speed of an electron just before it hits a television screen after being... Problem 55P Problem 56P Problem 57P: (II) Suppose a spacecraft of mass 17,000 kg is accelerated to 0.18c. (a) How much kinetic energy... Problem 58P Problem 59P Problem 60P Problem 61P Problem 62P Problem 63P: (III) (a) In reference frame S, a particle has momentum p=pxi along the positive x axis. Show that... Problem 64P Problem 65P: (II) A spaceship moving toward Earth at 0.70c transmits radio signals at 95.0 MHz. At what frequency... Problem 66P Problem 67P: (III) A radar speed gun emits microwaves of frequency f0 = 36.0 GHz. When the gun is pointed at an... Problem 68P: (III) A certain atom emits light of frequency f0 when at rest. A monatomic gas composed of these... Problem 69GP: An atomic clock is taken to the North Pole, while another stays at the Equator. How far will they be... Problem 70GP: A spaceship in distress sends out two escape pods in opposite directions. One travels at a speed v1... Problem 71GP: An airplane travels 1300 km/h around the Earth in a circle of radius essentially equal to that of... Problem 72GP: The nearest star to Earth is Proxima Centauri, 4.3 light-years away. (a) At what constant velocity... Problem 73GP Problem 74GP: A healthy astronauts heart rate is 60 beats/min. Flight doctors on Earth can monitor an astronauts... Problem 75GP: A spacecraft (reference frame S) moves past Earth (reference frame S) at velocity v, which points... Problem 76GP: Rocket A passes Earth at a speed of 0.65c. At the same time, rocket B passes Earth moving 0.85c... Problem 77GP: (a) What is the speed v of an electron whose kinetic energy is 14,000 times its rest energy? You can... Problem 78GP: As a rough rule, anything traveling faster than about 0.1c is called relativisticthat is, special... Problem 79GP Problem 80GP Problem 81GP Problem 82GP: A free neutron can decay into a proton, an electron, and a neutrino. Assume the neutrinos mass is... Problem 83GP: The Sun radiates energy at a rate of about 4 1026 W. (a) At what rate is the Suns mass decreasing?... Problem 84GP: An unknown particle is measured to have a negative charge and a speed of 2.24 108 m/s. Its momentum... Problem 85GP: How much energy would be required to break a helium nucleus into its constituents, two protons and... Problem 86GP Problem 87GP: Two protons, each having a speed of 0.985c in the laboratory, are moving toward each other.... Problem 88GP: When two moles of hydrogen molecules (H2) and one mole of oxygen molecules (O2) react to form two... Problem 89GP: The fictional starship Enterprise obtains its power by combining matter and antimatter, achieving... Problem 90GP: A spaceship and its occupants have a total mass of 180,000 kg. The occupants would like to travel to... Problem 91GP: In a nuclear reaction two identical particles are created, traveling in opposite directions. If the... Problem 92GP: A 32,000-kg spaceship is to travel to the vicinity of a star 6.6 light-years from Earth. Passengers... Problem 93GP: Suppose a 14,500-kg spaceship left Earth at a speed of 0.98c. What is the spaceships kinetic energy?... Problem 94GP: A pi meson of mass m decays at rest into a muon (mass m) and a neutrino of negligible or zero mass.... Problem 95GP: Astronomers measure the distance to a particular star to be 6.0 light-years (1 ly = distance light... Problem 96GP: A 1.88-kg mass oscillates on the end of a spring whose spring stiffness constant is k = 84.2 N/m. If... Problem 97GP: Show that the spacetime interval, (c t)2 (x)2, is invariant, meaning that all observers in all... Problem 98GP Problem 99GP: (II) For a 1.0-kg mass, make a plot of the kinetic energy as a function of speed for speeds from 0... format_list_bulleted
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