 10.1: The following angles are given in degrees. Convert them to radians:...
 10.2: The following angles are given in radians. Convert them to degrees:
 10.3: Find the angular speed of (a) the minute hand and (b) the hour hand...
 10.4: Express the angular velocity of the second hand on a clock in the f...
 10.5: Rank the following in order of increasing angular speed: an automob...
 10.6: Aspot of paint on a bicycle tire moves in a circular path of radius...
 10.7: What is the angular speed (in rev/min) of the Earth as it orbits ab...
 10.8: Find the angular speed of the Earth as it spins about its axis. Giv...
 10.9: The Crab Nebula One of the most studied objects in the night sky is...
 10.10: A3.5inch oppy disk in a computer rotates with a period of . What a...
 10.11: The angle an airplane propeller makes with the horizontal as a func...
 10.12: An object at rest begins to rotate with a constant angular accelera...
 10.13: An object at rest begins to rotate with a constant angular accelera...
 10.14: In Active Example 101, how long does it take before the angular vel...
 10.15: In Example 102, through what angle has the wheel turned when its an...
 10.16: The angular speed of a propeller on a boat increases with constant ...
 10.17: The angular speed of a propeller on a boat increases with constant ...
 10.18: After xing a at tire on a bicycle you give the wheel a spin. (a) If...
 10.19: Aceiling fan is rotating at 0.96 rev/s. When turned off, it slows u...
 10.20: Adiscus thrower starts from rest and begins to rotate with a consta...
 10.21: Half TimeAt 3:00 the hour hand and the minute hand of a clock point...
 10.22: A centrifuge is a common laboratory instrument that separates compo...
 10.23: The Slowing Earth The Earths rate of rotation is constantly decreas...
 10.24: A compact disk (CD) speeds up uniformly from rest to 310 rpm in 3.3...
 10.25: When a carpenter shuts off his circular saw, the 10.0inchdiameter ...
 10.26: The Worlds Fastest TurbineThe drill used by most dentists today is ...
 10.27: Predict/Explain Two children, Jason and Betsy, ride on the same mer...
 10.28: Referring to the previous problem, what are (a) the ratio of Jasons...
 10.29: Predict/Explain A Tall Building The worlds tallest building is the ...
 10.30: The hour hand on a certain clock is 8.2 cm long. Find the tangentia...
 10.31: Two children ride on the merrygoround shown in Conceptual Checkpo...
 10.32: The outer edge of a rotating Frisbee with a diameter of 29 cm has a...
 10.33: Acarousel at the local carnival rotates once every 45 seconds. (a) ...
 10.34: Jeff of the Jungle swings on a vine that is 7.20 m long (Figure 101...
 10.35: Suppose in 34, that at some point in his swing Jeff of the Jungle h...
 10.36: Acompact disk, which has a diameter of 12.0 cm, speeds up uniformly...
 10.37: When a compact disk with a 12.0cm diameter is rotating at 5.05 rad...
 10.38: As Tony the sherman reels in a big one, he turns the spool on his s...
 10.39: A Ferris wheel with a radius of 9.5 m rotates at a constant rate, c...
 10.40: Suppose the Ferris wheel in the previous problem begins to decelera...
 10.41: Aperson swings a 0.52kg tether ball tied to a 4.5m rope in an app...
 10.42: To polish a lling, a dentist attaches a sanding disk with a radius ...
 10.43: In the previous problem, suppose the disk has an angular accelerati...
 10.44: The Bohr Atom The Bohr model of the hydrogen atom pictures the elec...
 10.45: Awheel of radius R starts from rest and accelerates with a constant...
 10.46: As you drive down the highway, the top of your tires are moving wit...
 10.47: The tires on a car have a radius of 31 cm. What is the angular spee...
 10.48: Achild pedals a tricycle, giving the driving wheel an angular speed...
 10.49: Asoccer ball, which has a circumference of 70.0 cm, rolls 14.0 yard...
 10.50: As you drive down the road at 17 m/s, you press on the gas pedal an...
 10.51: A bicycle coasts downhill and accelerates from rest to a linear spe...
 10.52: Predict/Explain The minute and hour hands of a clock have a common ...
 10.53: Predict/Explain Tons of dust and small particles rain down onto the...
 10.54: Predict/Explain Suppose a bicycle wheel is rotated about an axis th...
 10.55: The moment of inertia of a 0.98kg bicycle wheel rotating about its...
 10.56: What is the kinetic energy of the grindstone in Example 104 if it c...
 10.57: An electric fan spinning with an angular speed of 13 rad/s has a ki...
 10.58: Repeat Example 105 for the case of a rolling hoop of the same mass ...
 10.59: The Lshaped object in Figure 1021 can be rotated in one of the fol...
 10.60: A12g CD with a radius of 6.0 cm rotates with an angular speed of 3...
 10.61: When a pitcher throws a curve ball, the ball is given a fairly rapi...
 10.62: A basketball rolls along the oor with a constant linear speed v. (a...
 10.63: Find the rate at which the rotational kinetic energy of the Earth i...
 10.64: Alawn mower has a at, rodshaped steel blade that rotates about its...
 10.65: Consider the physical situation shown in Conceptual Checkpoint 105....
 10.66: Suppose the block in Example 106 has a mass of 2.1 kg and an initia...
 10.67: Through what height must the yoyo in Active Example 103 fall for i...
 10.68: Suppose we change the race shown in Conceptual Checkpoint 104 to a ...
 10.69: Calculate the speeds of (a) the disk and (b) the hoop at the bottom...
 10.70: Atwoods Machine The two masses ( and ) in the Atwoods machine shown...
 10.71: In Conceptual Checkpoint 105, assume the ball is a solid sphere of ...
 10.72: After you pick up a spare, your bowling ball rolls without slipping...
 10.73: A1.3kg block is tied to a string that is wrapped around the rim of...
 10.74: After doing some exercises on the oor, you are lying on your back w...
 10.75: A2.0kg solid cylinder is released from rest at the top of a ramp a...
 10.76: A2.5kg solid sphere is released from rest at the top of a ramp and...
 10.77: When you stand on the observation deck of the Empire State Building...
 10.78: HardBoiled Versus Raw EggsOne way to tell whether an egg is raw or...
 10.79: When the Hoover Dam was completed and the reservoir behind it lled ...
 10.80: Weightless on the Equator In Quito, Ecuador, near the equator, you ...
 10.81: A diver completes somersaults during a 2.3s dive. What was the div...
 10.82: What linear speed must a 0.065kg hula hoop have if its total kinet...
 10.83: Losing Consciousness A pilot performing a horizontal turn will lose...
 10.84: Place two quarters on a table with their rims touching, as shown in...
 10.85: The object shown in Figure 1026 can be rotated in three different w...
 10.86: The accompanying doubleexposure photograph illustrates a method fo...
 10.87: Referring to the previous problem, (a) estimate the linear speed of...
 10.88: When the Hands Align A mathematically inclined friend emails you t...
 10.89: Adiver runs horizontally off the end of a diving tower 3.0 m above ...
 10.90: Apotters wheel of radius 6.8 cm rotates with a period of 0.52 s. Wh...
 10.91: Playing a CD The record in an oldfashioned record player always ro...
 10.92: Roller Pigeons Pigeons are bred to display a number of interesting ...
 10.93: As a marble with a diameter of 1.6 cm rolls down an incline, its ce...
 10.94: A rubber ball with a radius of 3.2 cm rolls along the horizontal su...
 10.95: Acollege campus features a large fountain surrounded by a circular ...
 10.96: Ayoyo moves downward until it reaches the end of its string, where...
 10.97: (a) An automobile with tires of radius 32 cm accelerates from 0 to ...
 10.98: In 75 and 76 we considered a cylinder and a solid sphere, respectiv...
 10.99: Acentrifuge ( 22) with an angular speed of 6050 rpm produces a maxi...
 10.100: A YoYo with a Brain Yomega (The yoyo with a brain) is constructed...
 10.101: The rotor in a centrifuge has an initial angular speed of 430 rad/s...
 10.102: Ahoney bee has two pairs of wings that can beat 250 times a second....
 10.103: The Sun, with Earth in tow, orbits about the center of the Milky Wa...
 10.104: Aperson walks into a room and switches on the ceiling fan. The fan ...
 10.105: Preventing Bone Loss in SpaceWhen astronauts return from prolonged ...
 10.106: Angular Acceleration of the Crab Nebula The pulsar in the Crab nebu...
 10.107: A thin, uniform rod of length L and mass M is pivoted about one end...
 10.108: Center of Percussion In the previous problem, suppose a small metal...
 10.109: A wooden plank rests on two soup cans laid on their sides. Each can...
 10.110: A person rides on a 12mdiameter Ferris wheel that rotates at the ...
 10.111: A solid sphere with a diameter of 0.17 m is released from rest; it ...
 10.112: Rank the four curves shown in Figure 1031 in order of increasing ra...
 10.113: What angular speed (in rpm) must the platform in this test model ha...
 10.114: Which of the curves shown in Figure 1031 corresponds to the test mo...
 10.115: Estimate the radius corresponding to curve 4 in Figure 1031. A. 0.0...
 10.116: Referring to Conceptual Checkpoint 104 Suppose we race a disk and a...
 10.117: Referring to Conceptual Checkpoint 104 Consider a race between the ...
 10.118: Referring to Active Example 103 (a) Suppose the radius of the axle ...
 10.119: Referring to Active Example 103Suppose we use a new yoyo that has ...
Solutions for Chapter 10: Physics 4th Edition
Full solutions for Physics  4th Edition
ISBN: 9780321611116
Solutions for Chapter 10
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Key Physics Terms and definitions covered in this textbook

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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