- 16.16-1: The angular velocity of the disk is defined by v = (5t 2 + 2) rad>s...
- 16.16-2: The angular acceleration of the disk is defined by a = 3t 2 + 12 ra...
- 16.16-3: The disk is originally rotating at v0 = 12 rad>s. If it is subjecte...
- 16.16-4: The disk is originally rotating at v0 = 12 rad>s. If it is subjecte...
- 16.16-5: The disk is driven by a motor such that the angular position of the...
- 16.16-6: A wheel has an initial clockwise angular velocity of 10 rad>s and a...
- 16.16-7: If gear A rotates with a constant angular acceleration of aA = 90 r...
- 16.16-8: If gear A rotates with an angular velocity of vA = (uA + 1) rad>s, ...
- 16.16-9: At the instant vA = 5 rad>s, pulley A is given an angular accelerat...
- 16.16-10: At the instant vA = 5 rad>s, pulley A is given a constant angular a...
- 16.16-11: The cord, which is wrapped around the disk, is given an acceleratio...
- 16.16-12: The power of a bus engine is transmitted using the belt-and-pulley ...
- 16.16-13: The power of a bus engine is transmitted using the belt-and-pulley ...
- 16.16-14: The disk starts from rest and is given an angular acceleration a = ...
- 16.16-15: The disk starts from rest and is given an angular acceleration a = ...
- 16.16-16: The disk starts at v0 = 1 rad>s when u = 0, and is given an angular...
- 16.16-17: A motor gives gear A an angular acceleration of aA = (2 + 0.006 u2)...
- 16.16-18: A motor gives gear A an angular acceleration of aA = (2t 3) rad>s2,...
- 16.16-19: The vacuum cleaners armature shaft S rotates with an angular accele...
- 16.16-20: A motor gives gear A an angular acceleration of aA = (4t 3) rad>s2,...
- 16.16-21: The motor turns the disk with an angular velocity of v = (5t 2 + 3t...
- 16.16-22: If the motor turns gear A with an angular acceleration of aA = 2 ra...
- 16.16-23: If the motor turns gear A with an angular acceleration of aA = 3 ra...
- 16.16-24: The gear A on the drive shaft of the outboard motor has a radius rA...
- 16.16-25: For the outboard motor in Prob. 1624, determine the magnitude of th...
- 16.16-26: The pinion gear A on the motor shaft is given a constant angular ac...
- 16.16-27: The gear A on the drive shaft of the outboard motor has a radius rA...
- 16.16-28: The gear A on the drive shaft of the outboard motor has a radius rA...
- 16.16-29: A stamp S, located on the revolving drum, is used to label canister...
- 16.16-30: At the instant shown, gear A is rotating with a constant angular ve...
- 16.16-31: Determine the distance the load W is lifted in t = 5 s using the ho...
- 16.16-32: The driving belt is twisted so that pulley B rotates in the opposit...
- 16.16-33: The driving belt is twisted so that pulley B rotates in the opposit...
- 16.16-34: For a short time a motor of the random-orbit sander drives the gear...
- 16.16-35: If the shaft and plate rotates with a constant angular velocity of ...
- 16.16-36: At the instant shown, the shaft and plate rotates with an angular v...
- 16.16-37: The rod assembly is supported by ball-and-socket joints at A and B....
- 16.16-38: The sphere starts from rest at u = 0 and rotates with an angular ac...
- 16.16-39: The end A of the bar is moving downward along the slotted guide wit...
- 16.16-40: At the instant u = 60, the slotted guide rod is moving to the left ...
- 16.16-41: At the instant u = 50, the slotted guide is moving upward with an a...
- 16.16-42: At the instant shown, u = 60, and rod AB is subjected to a decelera...
- 16.16-43: The crank AB is rotating with a constant angular velocity of 4 rad>...
- 16.16-44: Determine the velocity and acceleration of the follower rod CD as a...
- 16.16-45: Determine the velocity of rod R for any angle u of the cam C if the...
- 16.16-46: The circular cam rotates about the fixed point O with a constant an...
- 16.16-47: Determine the velocity of the rod R for any angle u of cam C as the...
- 16.16-48: Determine the velocity and acceleration of the peg A which is confi...
- 16.16-49: Bar AB rotates uniformly about the fixed pin A with a constant angu...
- 16.16-50: The center of the cylinder is moving to the left with a constant ve...
- 16.16-51: The pins at A and B are confined to move in the vertical and horizo...
- 16.16-52: The crank AB has a constant angular velocity V. Determine the veloc...
- 16.16-53: If the wedge moves to the left with a constant velocity v, determin...
- 16.16-54: The crate is transported on a platform which rests on rollers, each...
- 16.16-55: Arm AB has an angular velocity of V and an angular acceleration of ...
- 16.16-56: At the instant shown, the disk is rotating with an angular velocity...
- 16.16-57: At the instant shown the boomerang has an angular velocity v = 4 ra...
- 16.16-58: If the block at C is moving downward at 4 ft>s, determine the angul...
- 16.16-59: The link AB has an angular velocity of 3 rad>s. Determine the veloc...
- 16.16-60: The slider block C moves at 8 m>s down the inclined groove. Determi...
- 16.16-61: Determine the angular velocity of links AB and BC at the instant u ...
- 16.16-62: The planetary gear A is pinned at B. Link BC rotates clockwise with...
- 16.16-63: If the angular velocity of link AB is vAB = 3 rad>s, determine the ...
- 16.16-64: The pinion gear A rolls on the fixed gear rack B with an angular ve...
- 16.16-65: The pinion gear rolls on the gear racks. If B is moving to the righ...
- 16.16-66: Determine the angular velocity of the gear and the velocity of its ...
- 16.16-67: Determine the velocity of point A on the rim of the gear at the ins...
- 16.16-68: Knowing that angular velocity of link AB is vAB = 4 rad>s, determin...
- 16.16-69: Rod AB is rotating with an angular velocity of vAB = 60 rad>s. Dete...
- 16.16-70: The angular velocity of link AB is vAB = 5 rad>s. Determine the vel...
- 16.: The similar links AB and CD rotate about the fixed pins at A and C....
- 16.16-72: If the slider block A is moving downward at vA = 4 m>s, determine t...
- 16.16-73: If the slider block A is moving downward at vA = 4 m>s, determine t...
- 16.16-74: The epicyclic gear train consists of the sun gear A which is in mes...
- 16.16-75: If link AB is rotating at vAB = 3 rad>s, determine the angular velo...
- 16.16-76: If link AB is rotating at vAB = 3 rad>s, determine the angular velo...
- 16.16-77: The planetary gear system is used in an automatic transmission for ...
- 16.16-78: If the ring gear A rotates clockwise with an angular velocity of vA...
- 16.16-79: The mechanism shown is used in a riveting machine. It consists of a...
- 16.16-80: The mechanism is used on a machine for the manufacturing of a wire ...
- 16.16-81: In each case show graphically how to locate the instantaneous cente...
- 16.16-82: Determine the angular velocity of link AB at the instant shown if b...
- 16.16-83: The shaper mechanism is designed to give a slow cutting stroke and ...
- 16.16-84: The conveyor belt is moving to the right at v = 8 ft>s, and at the ...
- 16.16-85: The conveyor belt is moving to the right at v = 12 ft>s, and at the...
- 16.16-86: As the cord unravels from the wheels inner hub, the wheel is rotati...
- 16.16-87: If rod CD is rotating with an angular velocity vCD = 4 rad>s, deter...
- 16.16-88: If bar AB has an angular velocity vAB = 6 rad>s, determine the velo...
- 16.16-89: Show that if the rim of the wheel and its hub maintain contact with...
- 16.16-90: Due to slipping, points A and B on the rim of the disk have the vel...
- 16.16-91: Due to slipping, points A and B on the rim of the disk have the vel...
- 16.16-92: Member AB is rotating at vAB = 6 rad>s. Determine the velocity of p...
- 16.16-93: Member AB is rotating at vAB = 6 rad>s. Determine the velocity of p...
- 16.16-94: The cylinder B rolls on the fixed cylinder A without slipping. If c...
- 16.16-95: As the car travels forward at 80 ft>s on a wet road, due to slippin...
- 16.16-96: The pinion gear A rolls on the fixed gear rack B with an angular ve...
- 16.16-97: If the hub gear H and ring gear R have angular velocities vH = 5 ra...
- 16.16-98: If the hub gear H has an angular velocity vH = 5 rad>s, determine t...
- 16.16-99: The crankshaft AB rotates at vAB = 50 rad>s about the fixed axis th...
- 16.16-100: Cylinder A rolls on the fixed cylinder B without slipping. If bar C...
- 16.16-101: The planet gear A is pin connected to the end of the link BC. If th...
- 16.16-102: Solve Prob. 16101 if the sun gear D is rotating clockwise at vD = 5...
- 16.16-103: Bar AB has the angular motions shown. Determine the velocity and ac...
- 16.16-104: At a given instant the bottom A of the ladder has an acceleration a...
- 16.16-105: At a given instant the top B of the ladder has an acceleration aB =...
- 16.16-106: Member AB has the angular motions shown. Determine the velocity and...
- 16.16-107: At a given instant the roller A on the bar has the velocity and acc...
- 16.16-108: The rod is confined to move along the path due to the pins at its e...
- 16.16-109: Member AB has the angular motions shown. Determine the angular velo...
- 16.16-110: The slider block has the motion shown. Determine the angular veloci...
- 16.16-111: At a given instant the slider block A is moving to the right with t...
- 16.16-112: Determine the angular acceleration of link CD if link AB has the an...
- 16.16-113: The reel of rope has the angular motion shown. Determine the veloci...
- 16.16-114: The reel of rope has the angular motion shown. Determine the veloci...
- 16.16-115: A cord is wrapped around the inner spool of the gear. If it is pull...
- 16.16-116: The disk has an angular acceleration a = 8 rad>s 2 and angular velo...
- 16.16-117: The disk has an angular acceleration a = 8 rad>s 2 and angular velo...
- 16.16-118: A single pulley having both an inner and outer rim is pin connected...
- 16.16-119: The wheel rolls without slipping such that at the instant shown it ...
- 16.16-120: The collar is moving downward with the motion shown. Determine the ...
- 16.16-121: The tied crank and gear mechanism gives rocking motion to crank AC,...
- 16.16-122: If member AB has the angular motion shown, determine the angular ve...
- 16.16-123: . If member AB has the angular motion shown, determine the velocity...
- 16.16-124: The disk rolls without slipping such that it has an angular acceler...
- 16.16-125: The ends of the bar AB are confined to move along the paths shown. ...
- 16.16-126: The mechanism produces intermittent motion of link AB. If the sproc...
- 16.16-127: The slider block moves with a velocity of vB = 5 ft>s and an accele...
- 16.16-128: The slider block moves with a velocity of vB = 5 ft>s and an accele...
- 16.16-129: At the instant shown, ball B is rolling along the slot in the disk ...
- 16.16-130: The cranes telescopic boom rotates with the angular velocity and an...
- 16.16-131: While the swing bridge is closing with a constant rotation of 0.5 r...
- 16.16-132: While the swing bridge is closing with a constant rotation of 0.5 r...
- 16.16-133: Water leaves the impeller of the centrifugal pump with a velocity o...
- 16.16-134: Block A, which is attached to a cord, moves along the slot of a hor...
- 16.16-135: Rod AB rotates counterclockwise with a constant angular velocity v ...
- 16.16-136: Rod AB rotates counterclockwise with a constant angular velocity v ...
- 16.16-137: Particles B and A move along the parabolic and circular paths, resp...
- 16.16-138: Collar B moves to the left with a speed of 5 m>s, which is increasi...
- 16.16-139: Block D of the mechanism is confined to move within the slot of mem...
- 16.16-140: At the instant shown rod AB has an angular velocity vAB = 4 rad>s a...
- 16.16-141: The collar C is pinned to rod CD while it slides on rod AB. If rod ...
- 16.16-142: At the instant shown, the robotic arm AB is rotating counterclockwi...
- 16.16-143: Peg B on the gear slides freely along the slot in link AB. If the g...
- 16.16-144: The cars on the amusement-park ride rotate around the axle at A wit...
- 16.16-145: A ride in an amusement park consists of a rotating arm AB having a ...
- 16.16-146: A ride in an amusement park consists of a rotating arm AB that has ...
- 16.16-147: If the slider block C is fixed to the disk that has a constant coun...
- 16.16-148: At the instant shown, car A travels with a speed of 25 m>s, which i...
- 16.16-149: At the instant shown, car B travels with a speed of 15 m>s, which i...
- 16.16-150: The two-link mechanism serves to amplify angular motion. Link AB ha...
- 16.16-151: The disk rotates with the angular motion shown. Determine the angul...
- 16.16-152: The Geneva mechanism is used in a packaging system to convert const...

# Solutions for Chapter 16: Engineering Mechanics: Statics & Dynamics 14th Edition

## Full solutions for Engineering Mechanics: Statics & Dynamics | 14th Edition

ISBN: 9780133951929

Solutions for Chapter 16

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