 10.Q10.1: Can a single force applied to a body change both its translational ...
 10.Q10.2: Suppose you could use wheels of any type in the design of a soapbox...
 10.Q10.3: Serious bicyclists say that if you reduce the weight of a bike, it ...
 10.Q10.4: The harder you hit the brakes while driving forward, the more the f...
 10.Q10.5: When an acrobat walks on a tightrope, she extends her arms straight...
 10.Q10.6: When you turn on an electric motor, it takes longer to come up to f...
 10.Q10.7: The work done by a force is the product of force and distance. The ...
 10.Q10.8: A valued client brings a treasured ball to your engineering firm, w...
 10.Q10.9: You make two versions of the same object out of the same material h...
 10.Q10.10: Two identical masses are attached to frictionless pulleys by very l...
 10.Q10.11: The force of gravity acts on the baton in Fig. 10.11, and forces pr...
 10.Q10.12: A certain solid uniform ball reaches a maximum height h0 when it ro...
 10.Q10.13: A wheel is rolling without slipping on a horizontal surface. In an ...
 10.Q10.14: A hoop, a uniform solid cylinder, a spherical shell, and a uniform ...
 10.Q10.15: A ball is rolling along at speed v without slipping on a horizontal...
 10.Q10.16: You are standing at the center of a large horizontal turntable in a...
 10.Q10.17: Global Warming. If the earths climate continues to warm, ice near t...
 10.Q10.18: If two spinning objects have the same angular momentum, do they nec...
 10.Q10.19: If two spinning objects have the same angular momentum, do they nec...
 10.Q10.20: A point particle travels in a straight line at constant speed, and ...
 10.Q10.21: In Example 10.10 (Section 10.6) the angular speed v changes, and th...
 10.Q10.22: In Example 10.10 (Section 10.6) the rotational kinetic energy of th...
 10.Q10.23: As discussed in Section 10.6, the angular momentum of a circus acro...
 10.Q10.24: If you stop a spinning raw egg for the shortest possible instant an...
 10.Q10.25: A helicopter has a large main rotor that rotates in a horizontal pl...
 10.Q10.26: In a common design for a gyroscope, the flywheel and flywheel axis ...
 10.Q10.27: A gyroscope is precessing about a vertical axis. What happens to th...
 10.Q10.28: A gyroscope takes 3.8 s to precess 1.0 revolution about a vertical ...
 10.Q10.29: A gyroscope is precessing as in Fig. 10.32. What happens if you gen...
 10.Q10.30: A bullet spins on its axis as it emerges from a rifle. Explain how ...
 10.10.1: Calculate the torque (magnitude and direction) about point O due to...
 10.10.2: Calculate the net torque about point O for the two forces applied a...
 10.10.3: A square metal plate 0.180 m on each side is pivoted about an axis ...
 10.10.4: Three forces are applied to a wheel of radius 0.350 m, as shown in ...
 10.10.5: One force acting on a machine part is F S = 15.00 N2nd + 14.00 N2n...
 10.10.6: A metal bar is in the xyplane with one end of the bar at the origi...
 10.10.7: A machinist is using a wrench to loosen a nut. The wrench is 25.0 c...
 10.10.8: A uniform disk with mass 40.0 kg and radius 0.200 m is pivoted at i...
 10.10.9: The flywheel of an engine has moment of inertia 1.60 kg # m2 about ...
 10.10.1: A cord is wrapped around the rim of a solid uniform wheel 0.250 m i...
 10.10.11: A machine part has the shape of a solid uniform sphere of mass 225 ...
 10.10.12: A stone is suspended from the free end of a wire that is wrapped ar...
 10.10.13: A 2.00kg textbook rests on a frictionless, horizontal surface. A c...
 10.10.14: A 15.0kg bucket of water is suspended by a very light rope wrapped...
 10.10.15: A wheel rotates without friction about a stationary horizontal axis...
 10.10.16: A 12.0kg box resting on a horizontal, frictionless surface is atta...
 10.10.17: A 2.20kg hoop 1.20 m in diameter is rolling to the right without s...
 10.10.18: Gymnastics. We can roughly model a gymnastic tumbler as a uniform s...
 10.10.19: What fraction of the total kinetic energy is rotational for the fol...
 10.10.2: A string is wrapped several times around the rim of a small hoop wi...
 10.10.21: A solid ball is released from rest and slides down a hillside that ...
 10.10.22: A hollow, spherical shell with mass 2.00 kg rolls without slipping ...
 10.10.23: A 392N wheel comes off a moving truck and rolls without slipping a...
 10.10.24: A uniform marble rolls down a symmetrical bowl, starting from rest ...
 10.10.25: A thin, light string is wrapped around the outer rim of a uniform h...
 10.10.26: A Ball Rolling Uphill. A bowling ball rolls without slipping up a r...
 10.10.27: A size5 soccer ball of diameter 22.6 cm and mass 426 g rolls up a ...
 10.10.28: A bicycle racer is going downhill at 11.0 m>s when, to his horror, ...
 10.10.29: A playground merrygoround has radius 2.40 m and moment of inertia...
 10.10.3: An engine delivers 175 hp to an aircraft propeller at 2400 rev>min....
 10.10.31: A 2.80kg grinding wheel is in the form of a solid cylinder of radi...
 10.10.32: An electric motor consumes 9.00 kJ of electrical energy in 1.00 min...
 10.10.33: (a) Compute the torque developed by an industrial motor whose outpu...
 10.10.34: An airplane propeller is 2.08 m in length (from tip to tip) and has...
 10.10.35: A 2.00kg rock has a horizontal velocity of magnitude 12.0 m>s when...
 10.10.36: A woman with mass 50 kg is standing on the rim of a large disk that...
 10.10.37: Find the magnitude of the angular momentum of the second hand on a ...
 10.10.38: (a) Calculate the magnitude of the angular momentum of the earth in...
 10.10.39: A hollow, thinwalled sphere of mass 12.0 kg and diameter 48.0 cm i...
 10.10.4: A small block on a frictionless, horizontal surface has a mass of 0...
 10.10.41: Under some circumstances, a star can collapse into an extremely den...
 10.10.42: A diver comes off a board with arms straight up and legs straight d...
 10.10.43: The Spinning Figure Skater. The outstretched hands and arms of a fi...
 10.10.44: A solid wood door 1.00 m wide and 2.00 m high is hinged along one s...
 10.10.45: A large wooden turntable in the shape of a flat uniform disk has a ...
 10.10.46: Asteroid Collision! Suppose that an asteroid traveling straight tow...
 10.10.47: A small 10.0g bug stands at one end of a thin uniform bar that is ...
 10.10.48: A thin uniform rod has a length of 0.500 m and is rotating in a cir...
 10.10.49: A thin, uniform metal bar, 2.00 m long and weighing 90.0 N, is hang...
 10.10.5: A uniform, 4.5kg, square, solid wooden gate 1.5 m on each side han...
 10.10.51: The rotor (flywheel) of a toy gyroscope has mass 0.140 kg. Its mome...
 10.10.52: A Gyroscope on the Moon. A certain gyroscope precesses at a rate of...
 10.10.53: Stabilization of the Hubble Space Telescope. The Hubble Space Teles...
 10.10.54: A 50.0kg grindstone is a solid disk 0.520 m in diameter. You press...
 10.10.55: A grindstone in the shape of a solid disk with diameter 0.520 m and...
 10.10.56: A uniform, 8.40kg, spherical shell 50.0 cm in diameter has four sm...
 10.10.57: A thin, uniform, 3.80kg bar, 80.0 cm long, has very small 2.50kg ...
 10.10.58: You are designing a simple elevator system for an old warehouse tha...
 10.10.59: The Atwoods Machine. Figure P10.59 illustrates an Atwoods machine. ...
 10.10.6: The mechanism shown in Fig. P10.60 is used to raise a crate of supp...
 10.10.61: A large 16.0kg roll of paper with radius R = 18.0 cm rests against...
 10.10.62: A block with mass m = 5.00 kg slides down a surface inclined 36.9 t...
 10.10.63: Two metal disks, one with radius R1 = 2.50 cm and mass M1 = 0.80 kg...
 10.10.64: A lawn roller in the form of a thinwalled, hollow cylinder with ma...
 10.10.65: Two weights are connected by a very light, flexible cord that passe...
 10.10.66: You complain about fire safety to the landlord of your highrise ap...
 10.10.67: The Yoyo. A yoyo is made from two uniform disks, each with mass m...
 10.10.68: A thinwalled, hollow spherical shell of mass m and radius r starts...
 10.10.69: A basketball (which can be closely modeled as a hollow spherical sh...
 10.10.7: A solid uniform ball rolls without slipping up a hill (Fig. P10.70)...
 10.10.71: Rolling Stones. A solid, uniform, spherical boulder starts from res...
 10.10.72: You are designing a system for moving aluminum cylinders from the g...
 10.10.73: . A 42.0cmdiameter wheel, consisting of a rim and six spokes, is ...
 10.10.74: A uniform, 0.0300kg rod of length 0.400 m rotates in a horizontal ...
 10.10.75: A uniform solid cylinder with mass M and radius 2R rests on a horiz...
 10.10.76: Tarzan and Jane in the 21st Century. Tarzan has foolishly gotten hi...
 10.10.77: A 5.00kg ball is dropped from a height of 12.0 m above one end of ...
 10.10.78: The solid wood door of a gymnasium is 1.00 m wide and 2.00 m high, ...
 10.10.79: A uniform rod of length L rests on a frictionless horizontal surfac...
 10.10.8: A large turntable with radius 6.00 m rotates about a fixed vertical...
 10.10.81: In your job as a mechanical engineer you are designing a flywheel a...
 10.10.82: A local ice hockey team has asked you to design an apparatus for me...
 10.10.83: You are designing a slide for a water park. In a sitting position, ...
 10.10.84: Neutron Star Glitches. Occasionally, a rotating neutron star (see E...
 10.10.85: A 500.0g bird is flying horizontally at 2.25 m>s, not paying much ...
 10.10.86: A small block with mass 0.130 kg is attached to a string passing th...
 10.10.87: A 55kg runner runs around the edge of a horizontal turntable mount...
 10.10.88: The V6 engine in a 2014 Chevrolet Silverado 1500 pickup truck is re...
 10.10.89: You have one object of each of these shapes, all with mass 0.840 kg...
 10.10.9: You are testing a small flywheel (radius 0.166 m) that will be used...
 10.10.91: A block with mass m is revolving with linear speed v1 in a circle o...
 10.10.92: When an object is rolling without slipping, the rolling friction fo...
 10.10.93: A demonstration gyroscope wheel is constructed by removing the tire...
 10.10.94: The moment of inertia of the empty turntable is 1.5 kg m2 . With a ...
 10.10.95: While the turntable is being accelerated, the person suddenly exten...
 10.10.96: A doubling of the torque produces a greater angular acceleration. W...
 10.10.97: If the bodys center of mass were not placed on the rotational axis ...
Solutions for Chapter 10: Dynamics of Rotational motion
Full solutions for University Physics with Modern Physics (1)  14th Edition
ISBN: 9780321973610
Solutions for Chapter 10: Dynamics of Rotational motion
Get Full SolutionsThis textbook survival guide was created for the textbook: University Physics with Modern Physics (1), edition: 14. Since 127 problems in chapter 10: Dynamics of Rotational motion have been answered, more than 244623 students have viewed full stepbystep solutions from this chapter. Chapter 10: Dynamics of Rotational motion includes 127 full stepbystep solutions. This expansive textbook survival guide covers the following chapters and their solutions. University Physics with Modern Physics (1) was written by and is associated to the ISBN: 9780321973610.

//
parallel

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

°C
Celsius degree

°F
Fahrenheit degree