 11.1: A car travels at 80 km/h on a level road in the positive direction ...
 11.2: An automobile traveling at 80.0 km/h has tires of 75.0 cm diameter....
 11.3: A 140 kg hoop rolls along a horizontal floor so that the hoops cent...
 11.4: A uniform solid sphere rolls down an incline. (a) What must be the ...
 11.5: A 1000 kg car has four 10 kg wheels. When the car is moving, what f...
 11.6: Figure 1130 gives the speed v versus time t for a 0.500 kg object ...
 11.7: In Fig. 1131, a solid cylinder of radius 10 cm and mass 12 kg star...
 11.8: Figure 1132 shows the potential energy U(x) of a solid ball that c...
 11.9: n Fig. 1133, a solid ball rolls smoothly from rest (starting at he...
 11.10: A hollow sphere of radius 0.15 m, with rotational inertia I 0.040 k...
 11.11: In Fig. 1134, a constant horizontal force of magnitude 10 N is app...
 11.12: In Fig. 1135, a solid brass ball of mass 0.280 g will roll smoothl...
 11.13: Nonuniform ball. In Fig. 1136, a ball od mass M and Radius R rolls...
 11.14: In Fig. 1137, a small, solid, uniform ball is to be shot from poin...
 11.15: A bowler throws a bowling ball of radius R 11 cm along a lane. The ...
 11.16: Nonuniform cylindrical object. In Fig. 1139, a cylindrical object ...
 11.17: A yoyo has a rotational inertia of 950 g cm2 and a mass of 120 g. ...
 11.18: In 1980, over San Francisco Bay, a large yoyo was released from a ...
 11.19: In unitvector notation, what is the net torque about the origin on...
 11.20: A plum is located at coordinates (2.0 m, 0, 4.0 m). In unitvector n...
 11.21: In unitvector notation, what is the torque about the origin on a p...
 11.22: A particle moves through an xyz coordinate system while a force act...
 11.23: Force F: (2.0 N)i (3.0 N)k acts on a pebble with position vector : ...
 11.24: In unitvector notation, what is the torque about the origin on a j...
 11.25: Force F (8.0 N)i (6.0 N)j SS acts on a particle with position vecto...
 11.26: At the instant of Fig. 1140, a 2.0 kg particle P has a position ve...
 11.27: At one instant, force F: 4.0j N acts on a 0.25 kg object that has p...
 11.28: A 2.0 kg particlelike object moves in a plane with velocity compon...
 11.29: In the instant of Fig. 1141, two particles move in an xy plane. Pa...
 11.30: At the instant the displacement of a 2.00 kg object relative to the...
 11.31: In Fig. 1142, a 0.400 kg ball is shot directly upward at initial s...
 11.32: A particle is acted on by two torques about the origin: :1has a mag...
 11.33: At time t 0, a 3.0 kg particle with velocity is at x 3.0 m, y 8.0 m...
 11.34: A particle is to move in an xy plane, clockwise around the origin a...
 11.35: At time t, the vector : 4.0t2 i (2.0t 6.0t2)j gives the position of...
 11.36: Figure 1143 shows three rotating, uniform disks that are coupled b...
 11.37: In Fig. 1144, three particles of mass m 23 g are fastened to three...
 11.38: A sanding disk with rotational inertia 1.2 103 kg m2 is attached to...
 11.39: The angular momentum of a flywheel having a rotational inertia of 0...
 11.40: A disk with a rotational inertia of rotates like a merrygoround w...
 11.41: Figure 1145 shows a rigid structure consisting of a circular hoop ...
 11.42: Figure 1146 gives the torque t that acts on an initially stationar...
 11.43: In Fig. 1147, two skaters, each of mass 50 kg, approach each other...
 11.44: A Texas cockroach of mass 0.17 kg runs counterclockwise around the ...
 11.45: A man stands on a platform that is rotating (without friction) with...
 11.46: The rotational inertia of a collapsing spinning star drops to its i...
 11.47: A track is mounted on a large wheel that is free to turn with negli...
 11.48: A Texas cockroach walks from the center of a circular disk (that ro...
 11.49: Two disks are mounted (like a merrygoround) on lowfriction bearin...
 11.50: The rotor of an electric motor has rotational inertia Im 2.0 103 kg...
 11.51: A wheel is rotating freely at angular speed 800 rev/min on a shaft ...
 11.52: A cockroach of mass m lies on the rim of a uniform disk of mass 4.0...
 11.53: In Fig. 1150 (an overhead view), a uniform thin rod of length 0.50...
 11.54: Figure 1151 shows an overhead view of a ring that can rotate about...
 11.55: A horizontal vinyl record of mass 0.10 kg and radius 0.10 m rotates...
 11.56: In a long jump, an athlete leaves the ground with an initial angula...
 11.57: A uniform disk of mass 10m and radius 3.0r can rotate freely about ...
 11.58: A horizontal platform in the shape of a circular disk rotates on a ...
 11.59: Figure 1152 is an overhead view of a thin uniform rod of length 0....
 11.60: In Fig. 1153, a 1.0 g bullet is fired into a 0.50 kg block attache...
 11.61: The uniform rod (length 0.60 m, mass 1.0 kg) in Fig. 1154 rotates ...
 11.62: During a jump to his partner, an aerialist is to make a quadruple s...
 11.63: In Fig. 1156, a 30 kg child stands on the edge of a stationary mer...
 11.64: A ballerina begins a tour jet (Fig. 1119a) with angular speed and ...
 11.65: Two 2.00 kg balls are attached to the ends of a thin rod of length ...
 11.66: In Fig. 1158, a small 50 g block slides down a frictionless surfac...
 11.67: Figure 1159 is an overhead view of a thin uniform rod of length 0....
 11.68: A top spins at 30 rev/s about an axis that makes an angle of 30 wit...
 11.69: A certain gyroscope consists of a uniform disk with a 50 cm radius ...
 11.70: A uniform solid ball rolls smoothly along a floor, then up a ramp i...
 11.71: In Fig. 1160, a constant horizontal force of magnitude 12 N is app...
 11.72: A thinwalled pipe rolls along the floor.What is the ratio of its t...
 11.73: A 3.0 kg toy car moves along an x axis with a velocity given by wit...
 11.74: A wheel rotates clockwise about its central axis with an angular mo...
 11.75: In a playground, there is a small merrygoround of radius 1.20 m a...
 11.76: A uniform block of granite in the shape of a book has face dimensio...
 11.77: Two particles, each of mass 2.90 104 kg and speed 5.46 m/s, travel ...
 11.78: A wheel of radius 0.250 m, moving initially at 43.0 m/s, rolls to a...
 11.79: Wheels A and B in Fig. 1161 are connected by a belt that does not ...
 11.80: A 2.50 kg particle that is moving horizontally over a floor with ve...
 11.81: A uniform wheel of mass 10.0 kg and radius 0.400 m is mounted rigid...
 11.82: A uniform rod rotates in a horizontal plane about a vertical axis t...
 11.83: A solid sphere of weight 36.0 N rolls up an incline at an angle of ...
 11.84: Suppose that the yoyo in 17, instead of rolling from rest, is thro...
 11.85: A girl of mass M stands on the rim of a frictionless merrygoround ...
 11.86: A body of radius R and mass m is rolling smoothly with speed v on a...
Solutions for Chapter 11: Rolling, Torque, and Angular Momentum
Full solutions for Fundamentals of Physics, Volume 2 (Chapters 21  44)  10th Edition
ISBN: 9781118230732
Solutions for Chapter 11: Rolling, Torque, and Angular Momentum
Get Full SolutionsFundamentals of Physics, Volume 2 (Chapters 21  44) was written by and is associated to the ISBN: 9781118230732. Chapter 11: Rolling, Torque, and Angular Momentum includes 86 full stepbystep solutions. Since 86 problems in chapter 11: Rolling, Torque, and Angular Momentum have been answered, more than 74181 students have viewed full stepbystep solutions from this chapter. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Fundamentals of Physics, Volume 2 (Chapters 21  44) , edition: 10.

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