 2.1: Michelson used the motion of the Earth around thesun to try to dete...
 2.2: If you wanted to set out today to fi nd the effects of theether, wh...
 2.3: For what reasons would Michelson and Morley repeattheir experiment ...
 2.4: Does the fact that Maxwells equations do not need tobe modifi ed be...
 2.5: The special theory of relativity has what effect on measurementsdon...
 2.6: Why did it take so long to discover the theory of relativity?Why di...
 2.7: Can you think of a way you can make yourself olderthan those born o...
 2.8: Will metersticks manufactured on Earth work correctlyon spaceships ...
 2.9: Devise a system for you and three colleagues, at restwith you, to s...
 2.10: In the experiment to verify time dilation by fl ying thecesium cloc...
 2.11: Can you think of an experiment to verify length contractiondirectly...
 2.12: Would it be easier to perform the muon decay experimentin the space...
 2.13: On a spacetime diagram, can events above t 0 butnot in the shaded a...
 2.14: Why dont we also include the spatial coordinate zwhen drawing the l...
 2.15: What would be a suitable name for events connectedby s2 0?
 2.16: Is the relativistic Doppler effect valid only for lightwaves? Can y...
 2.17: In Figure 2.22, why can a real worldline not have aslope less than ...
 2.18: Explain how in the twin paradox, we might arrange tocompare clocks ...
 2.19: In each of the following pairs, which is the more massive:a relaxed...
 2.20: In the fi ssion of 235U, the masses of the fi nal productsare less ...
 2.21: In the fusion of deuterium and tritium nuclei to producea thermonuc...
 2.22: Mary, the astronaut, wants to travel to the star systemAlpha Centau...
 2.23: A salesman driving a very fast car was arrested for drivingthrough ...
 2.24: A spaceship of length 40 m at rest is observed to be20 m long when ...
 2.25: The Concorde traveled 8000 km between two placesin North America an...
 2.26: A mechanism on Earth used to shoot down geosynchronoussatellites th...
 2.27: Two events occur in an inertial system K at the sametime but 4 km a...
 2.28: Imagine that in another universe the speed of light isonly 100 m/s....
 2.29: In another universe where the speed of light is only100 m/s, an air...
 2.30: Two systems K and K synchronize their clocks at t t 0 when their or...
 2.31: A spaceship is moving at a speed of 0.84c away from anobserver at r...
 2.32: A proton and an antiproton are moving toward eachother in a headon...
 2.33: Imagine the speed of light in another universe to beonly 100 m/s. T...
 2.34: In the Fizeau experiment described in Example 2.5,suppose that the ...
 2.35: Three galaxies are aligned along an axis in the orderA, B, C. An ob...
 2.36: Consider the gedanken experiment discussed in Section2.6 in which a...
 2.37: A group of scientists decide to repeat the muon decayexperiment at ...
 2.38: Consider a reference system placed at the U.S. NavalObservatory in ...
 2.39: Derive the results in Table 2.1 for the frequencies fand f . During...
 2.40: Derive the results in Table 2.1 for the time of the totaltrip and t...
 2.41: Use the Lorentz transformation to prove that s2 s2.
 2.42: Prove that for a timelike interval, two events can neverbe consider...
 2.43: Prove that for a spacelike interval, two events cannotoccur at the ...
 2.44: Given two events, (x1, t1) and (x2, t2), use a spacetimediagram to ...
 2.45: (a) Draw on a spacetime diagram in the fi xed systema line expressi...
 2.46: Consider a fi xed and a moving system with theirclocks synchronized...
 2.47: Use the results of the two previous problems to showthat events sim...
 2.48: An astronaut is said to have tried to get out of a traffi cviolatio...
 2.49: Derive Equation (2.32) for the case where the sourceis fi xed but t...
 2.50: Do the complete derivation for Equation (2.33) whenthe source and r...
 2.51: A spacecraft traveling out of the solar system at aspeed of 0.95c s...
 2.52: Three radioequipped plumbing vans are broadcastingon the same freq...
 2.53: Three radioequipped plumbing vans are broadcastingon the same freq...
 2.54: A spaceship moves radially away from Earth with acceleration29.4 m/...
 2.55: Newtons second law is given by F dp/dt. If the forceis always perpe...
 2.56: Use the result of the previous problem to show thatthe radius of a ...
 2.57: Newtons second law is given by F dp/dt. If the forceis always paral...
 2.58: Find the force necessary to give a proton an accelerationof 1019 m/...
 2.59: A particle having a speed of 0.92c has a momentum of1016 kg # m/s. ...
 2.60: A particle initially has a speed of 0.5c. At what speeddoes its mom...
 2.61: The Bevatron accelerator at the Lawrence BerkeleyLaboratory acceler...
 2.62: Show that linear momentum is conserved in Example2.9 as measured by...
 2.63: Show that 12mv2 does not give the correct kineticenergy.
 2.64: How much ice must melt at 0C in order to gain 2 gof mass? Where doe...
 2.65: Physicists at the Stanford Linear Accelerator Center(SLAC) bombarde...
 2.66: The Tevatron accelerator at the Fermi National AcceleratorLaborator...
 2.67: Calculate the momentum, kinetic energy, and totalenergy of an elect...
 2.68: The total energy of a body is found to be twice its restenergy. How...
 2.69: A system is devised to exert a constant force of 8 N onan 80kg bod...
 2.70: What is the speed of a proton when its kinetic energyis equal to tw...
 2.71: What is the speed of an electron when its kinetic energyis (a) 10% ...
 2.72: Derive the following equation:b vc A1 a E0E0 K b2
 2.73: Prove that pc/E. This is a useful relation to fi ndthe velocity of ...
 2.74: A good rule of thumb is to use relativistic equationswhenever the k...
 2.75: How much massenergy (in joules) is contained in apeanut weighing 0...
 2.76: Calculate the energy needed to accelerate a spaceshipof mass 10,000...
 2.77: Derive Equation (2.58) for the relativistic kinetic energyand show ...
 2.78: A test automobile of mass 1000 kg moving at highspeed crashes into ...
 2.79: A helium nucleus has a mass of 4.001505 u. What is itsbinding energy?
 2.80: A free neutron is an unstable particle and beta decaysinto a proton...
 2.81: The Large Hadron Collider at Europes CERN facilityis designed to pr...
 2.82: What is the kinetic energy of (a) an electron having amomentum of 4...
 2.83: A muon has a mass of 106 MeV/c 2. Calculate thespeed, momentum, and...
 2.84: The reaction 2H 2H S n 3He (where n is a neutron)is one of the reac...
 2.85: The reaction 2H 3H S n 4He is one of the reactionsuseful for produc...
 2.86: Instead of one positive charge outside a conductingwire, as was dis...
 2.87: An particle has rest energy 1672 MeV and meanlifetime 8.2 1011 s. I...
 2.88: Show that the following form of Newtons second lawsatisfi es the Lo...
 2.89: Use the results listed in Table 2.1 to fi nd (a) thenumber of signa...
 2.90: For the twins Frank and Mary described in Section2.8, consider Mary...
 2.91: Frank and Mary are twins. Mary jumps on a spaceshipand goes to the ...
 2.92: A police radar gun operates at a frequency of 10.5 GHz.The offi cer...
 2.93: A spaceship moving 0.80c direction away from Earthfi res a missile ...
 2.94: An electron has a total energy that is 250 times its restenergy. De...
 2.95: A proton moves with a speed of 0.90c. Find the speedof an electron ...
 2.96: A highspeed K0 meson is traveling at a speed of 0.90cwhen it decay...
 2.97: Frank and Mary are twins, and Mary wants to travel toour nearest st...
 2.98: The International Space Federation constructs a newspaceship that c...
 2.99: A powerful laser on Earth rotates its laser beam in acircle at a fr...
 2.100: The Lockheed SR71 Blackbird may be the fastest nonresearchairplane...
 2.101: A spaceship is coming directly toward you while youare in the Inter...
 2.102: Quasars are among the most distant objects in theuniverse and are m...
 2.103: One possible decay mode of the neutral kaon is K0 S0 0. The rest en...
 2.104: The sun radiates energy at a rate of 3.9 1026 W. (a) Atwhat rate is...
 2.105: One way astrophysicists have identifi ed extrasolarplanets orbiting...
 2.106: Small differences in the wavelengths in the suns spectrumare detect...
Solutions for Chapter 2: Special Theory of Relativity
Full solutions for Modern Physics for Scientists and Engineers  4th Edition
ISBN: 9781133103721
Solutions for Chapter 2: Special Theory of Relativity
Get Full SolutionsModern Physics for Scientists and Engineers was written by and is associated to the ISBN: 9781133103721. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Modern Physics for Scientists and Engineers, edition: 4. Since 106 problems in chapter 2: Special Theory of Relativity have been answered, more than 25133 students have viewed full stepbystep solutions from this chapter. Chapter 2: Special Theory of Relativity includes 106 full stepbystep solutions.

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parallel

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average (indicated by a bar over a symbol—e.g., v¯ is average velocity)

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