 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: In Fig. 1133, a solid ball rolls smoothly from rest (starting at h...
 11.10: A hollow sphere of radius 0.15 m, with rotational inertia I ! 0.040...
 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. 11 36, a ball of mass M and radius R roll...
 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. Th...
 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 ...
 11.21: In unitvector notation, what is the torque about the origin on a p...
 11.22: (b) force with components F2x ! 0,F2y ! 2.0 N,F2z ! 4.0 N?
 11.23: Force acts on a pebble with position vector relative to the origin....
 11.24: In unitvector notation, what is the torque about the origin on a j...
 11.25: Force F acts on a particle with position vector .What are (a) the t...
 11.26: At the instant of Fig. 1140, a 2.0 kg particle P has a position ve...
 11.27: At one instant, force acts on a 0.25 kg object that has position ve...
 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: &: has a ma...
 11.33: At time t ! 0, a 3.0 kg particle with velocity is at x 3.0 m, y 8.0...
 11.34: A particle is to move in an xy plane, clockwise around the origin a...
 11.35: At time t, the vector gives the position of a 3.0 kg particle relat...
 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 $ 10%3 kg "m2 is attache...
 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 $ 10...
 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( wi...
 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 $ 10%4 kg and speed 5.46 m/s, trav...
 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: Fundamentals of Physics 10th Edition
Full solutions for Fundamentals of Physics  10th Edition
ISBN: 9781118230718
Solutions for Chapter 11
Get Full SolutionsThis textbook survival guide was created for the textbook: Fundamentals of Physics, edition: 10. This expansive textbook survival guide covers the following chapters and their solutions. Fundamentals of Physics was written by Sieva Kozinsky and is associated to the ISBN: 9781118230718. Chapter 11 includes 86 full stepbystep solutions. Since 86 problems in chapter 11 have been answered, more than 102250 students have viewed full stepbystep solutions from this chapter.

//
parallel

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

°C
Celsius degree

°F
Fahrenheit degree