 36.36.1: What is an inertial reference frame?
 36.36.2: What is relativity about?
 36.36.3: How does relativity affect time?
 36.36.4: How does relativity affect space?
 36.36.5: How does relativity affect mass and energy?
 36.36.6: Does relativity have applications?
 36.36.7: Which of these is an inertial reference frame (or a very good appro...
 36.36.8: An airplane is flying at speed 200 m/s with respect to the ground. ...
 36.36.9: Ocean waves are approaching the beach at 10 m/s. A boat heading out...
 36.36.10: Experimenter A in reference frame S stands at the origin looking in...
 36.36.11: A carpenter is working on a house two blocks away. You notice a sli...
 36.36.12: An experimenter in reference frame S stands at the origin looking i...
 36.36.13: A tree and a pole are 3000 m apart. Each is suddenly hit by a bolt ...
 36.36.14: Saturn is 1.43 * 1012 m from the sun. A rocket travels along a line...
 36.36.15: A tree and a pole are 3000 m apart. Each is hit by a bolt of lightn...
 36.36.16: In Example 36.4 a rocket traveled along a line from the sun to Satu...
 36.36.17: Molly flies her rocket past Nick at constant velocity v. Molly and ...
 36.36.18: A firecracker explodes at the origin of an inertial reference frame...
 36.36.19: Beth and Charles are at rest relative to each other. Anjay runs pas...
 36.36.20: Peggy is standing in the center of a long, flat railroad car that h...
 36.36.21: An 8.0mlong school bus drives past at 30 m/s. By how much is its ...
 36.36.22: An electron moves through the lab at 99% the speed of light. The la...
 36.36.23: A rocket flies past the earth at 0.90c. As it goes by, the rocket f...
 36.36.24: Electrons in a particle accelerator reach a speed of 0.999c relativ...
 36.36.25: Calculate the rest energy and the kinetic energy of (a) a 100 g bal...
 36.36.26: The rockets of the Goths and the Huns are each 1000 m long in their...
 36.36.27: FIGURE Q36.1 shows two balls. What are the speed and direction of e...
 36.36.28: Teenagers Sam and Tom are playing chicken in their rockets. As FIGU...
 36.36.29: Firecracker A is 300 m from you. Firecracker B is 600 m from you in...
 36.36.30: Firecrackers A and B are 600 m apart. You are standing exactly half...
 36.36.31: FIGURE Q36.5 shows Peggy standing at the center of her railroad car...
 36.36.32: FIGURE Q36.6 shows a rocket traveling from left to right. At the in...
 36.36.33: Your friend flies from Los Angeles to New York. She carries an accu...
 36.36.34: As the meter stick in FIGURE Q36.8 flies past you, you simultaneous...
 36.36.35: A 100mlong train is heading for an 80mlong tunnel. If the train...
 36.36.36: Particle A has half the mass and twice the speed of particle B. Is ...
 36.36.37: Event A occurs at spacetime coordinates 1300 m, 2 ms2. a. Event B o...
 36.36.38: A firecracker explodes in reference frame S at t = 1.0 s. A second ...
 36.36.39: At t = 1.0 s, a firecracker explodes at x = 10 m in reference frame...
 36.36.40: A newspaper delivery boy is riding his bicycle down the street at 5...
 36.36.41: A baseball pitcher can throw a ball with a speed of 40 m/s. He is i...
 36.36.42: An outofcontrol alien spacecraft is diving into a star at a speed...
 36.36.43: A starship blasts past the earth at 2.0 * 108 m/s. Just after passi...
 36.36.44: Your job is to synchronize the clocks in a reference frame. You are...
 36.36.45: Bjorn is standing at x = 600 m. Firecracker 1 explodes at the origi...
 36.36.46: Bianca is standing at x = 600 m. Firecracker 1, at the origin, and ...
 36.36.47: You are standing at x = 9.0 km and your assistant is standing at x ...
 36.36.48: You are standing at x = 9.0 km. Lightning bolt 1 strikes at x = 0 k...
 36.36.49: You are flying your personal rocketcraft at 0.90c from Star A towar...
 36.36.50: A cosmic ray travels 60 km through the earths atmosphere in 400 ms,...
 36.36.51: At what speed, as a fraction of c, does a moving clock tick at half...
 36.36.52: An astronaut travels to a star system 4.5 ly away at a speed of 0.9...
 36.36.53: a. At what speed, as a fraction of c, must a rocket travel on a jou...
 36.36.54: At what speed, as a fraction of c, would a roundtrip astronaut los...
 36.36.55: At what speed, in m/s, would a moving clock lose 1.0 ns in 1.0 day ...
 36.36.56: You fly 5000 km across the United States on an airliner at 250 m/s....
 36.36.57: Jill claims that her new rocket is 100 m long. As she flies past yo...
 36.36.58: At what speed, as a fraction of c, will a moving rod have a length ...
 36.36.59: A cube has a density of 2000 kg/m3 while at rest in the laboratory....
 36.36.60: A muon travels 60 km through the atmosphere at a speed of 0.9997c. ...
 36.36.61: Our Milky Way galaxy is 100,000 ly in diameter. A spaceship crossin...
 36.36.62: A human hair is about 50 mm in diameter. At what speed, in m/s, wou...
 36.36.63: A rocket travels in the xdirection at speed 0.60c with respect to ...
 36.36.64: An event has spacetime coordinates 1x, t2 = 11200 m, 2.0 ms2 in ref...
 36.36.65: In the earths reference frame, a tree is at the origin and a pole i...
 36.36.66: A rocket cruising past earth at 0.80c shoots a bullet out the back ...
 36.36.67: A distant quasar is found to be moving away from the earth at 0.80c...
 36.36.68: A laboratory experiment shoots an electron to the left at 0.90c. Wh...
 36.36.69: A proton is accelerated to 0.999c. a. What is the protons momentum?...
 36.36.70: A 1.0 g particle has momentum 400,000 kgm/s. What is the particles ...
 36.36.71: At what speed, as a fraction of c, is a particles momentum twice it...
 36.36.72: What is the speed, as a fraction of c, of a particle whose momentum...
 36.36.73: A quarterpound hamburger with all the fixings has a mass of 200 g....
 36.36.74: What are the rest energy, the kinetic energy, and the total energy ...
 36.36.75: At what speed, as a fraction of c, must an electron move so that it...
 36.36.76: At what speed, as a fraction of c, is a particles kinetic energy tw...
 36.36.77: At what speed, as a fraction of c, is a particles total energy twic...
 36.36.78: A modest supernova (the explosion of a massive star at the end of i...
 36.36.79: One of the important ways in which the Higgs boson was detected at ...
 36.36.80: The diameter of the solar system is 10 light hours. A spaceship cro...
 36.36.81: A 30mlong rocket train car is traveling from Los Angeles to New Y...
 36.36.82: The star Alpha goes supernova. Ten years later and 100 ly away, as ...
 36.36.83: Two events in reference frame S occur 10 ms apart at the same point...
 36.36.84: A starship voyages to a distant planet 10 ly away. The explorers st...
 36.36.85: The Stanford Linear Accelerator (SLAC) accelerates electrons to v =...
 36.36.86: On a futuristic highway, a 15mlong rocket travels so fast that a ...
 36.36.87: In an attempt to reduce the extraordinarily long travel times for v...
 36.36.88: The quantity dE/dv, the rate of increase of energy with speed, is t...
 36.36.89: A rocket traveling at 0.50c sets out for the nearest star, Alpha Ce...
 36.36.90: The star Delta goes supernova. One year later and 2.0 ly away, as m...
 36.36.91: Two rockets approach each other. Each is traveling at 0.75c in the ...
 36.36.92: Two rockets, A and B, approach the earth from opposite directions a...
 36.36.93: A rocket fires a projectile at a speed of 0.95c while traveling pas...
 36.36.94: Through what potential difference must an electron be accelerated, ...
 36.36.95: What is the speed, in m/s, of a proton after being accelerated from...
 36.36.96: The halflife of a muon at rest is 1.5 ms. Muons that have been acc...
 36.36.97: This chapter has assumed that lengths perpendicular to the directio...
 36.36.98: Derive the Lorentz transformations for t and t. Hint: See the comme...
 36.36.99: a. Derive a velocity transformation equation for uy and u= y. Assum...
 36.36.100: A rocket is fired from the earth to the moon at a speed of 0.990c. ...
 36.36.101: Lets examine whether or not the law of conservation of momentum is ...
 36.36.102: a. What are the momentum and total energy of a proton with speed 0....
 36.36.103: At what speed, as a fraction of c, is the kinetic energy of a parti...
 36.36.104: A typical nuclear power plant generates electricity at the rate of ...
 36.36.105: Many science fiction spaceships are powered by antimatter reactors....
 36.36.106: The sun radiates energy at the rate 3.8 * 1026 W. The source of thi...
 36.36.107: The radioactive element radium (Ra) decays by a process known as al...
 36.36.108: The nuclear reaction that powers the sun is the fusion of four prot...
 36.36.109: Consider the inelastic collision e + e S e + e + e + e+ in whi...
 36.36.110: An electron moving to the right at 0.90c collides with a positron m...
 36.36.111: Two rockets are each 1000 m long in their rest frame. Rocket Orion,...
 36.36.112: Some particle accelerators allow protons 1p+2 and antiprotons 1p2 ...
 36.36.113: A ball of mass m traveling at a speed of 0.80c has a perfectly inel...
 36.36.114: A very fast pole vaulter lives in the country. One day, while pract...
Solutions for Chapter 36: Relativity
Full solutions for Physics for Scientists and Engineers: A Strategic Approach, Standard Edition (Chs 136)  4th Edition
ISBN: 9780134081496
Solutions for Chapter 36: Relativity
Get Full SolutionsPhysics for Scientists and Engineers: A Strategic Approach, Standard Edition (Chs 136) was written by and is associated to the ISBN: 9780134081496. Chapter 36: Relativity includes 114 full stepbystep solutions. Since 114 problems in chapter 36: Relativity have been answered, more than 153825 students have viewed full stepbystep solutions from this chapter. This textbook survival guide was created for the textbook: Physics for Scientists and Engineers: A Strategic Approach, Standard Edition (Chs 136), edition: 4. This expansive textbook survival guide covers the following chapters and their solutions.

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parallel

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

°C
Celsius degree

°F
Fahrenheit degree