- 16.F16-1: F16-1. When the gear rotates 20 revolutions, it achieves an angular...
- 16.F16-2: F16-2. The flywheel rotates with an angular velocity of (t) = (O.OO...
- 16.F16-3: FI6-3. The flywheel rotates with an angular velocity of (d = (4 6l/...
- 16.F16-4: FI6-4. The bucket is hoisted by the rope that wraps around a drum w...
- 16.F16-5: FI 6-5. A wheel has an angular acceleration of a = (0.5 0) rad/s2, ...
- 16.F16-6: FI6-6. For a short period of time, the motor turns gear A with a co...
- 16.F16-7: F16-7. If roller A moves to the right with a constant velocity of v...
- 16.F16-8: F16-8. The wheel rolls without slipping with an angular velocity of...
- 16.F16-9: F16-9. Determine the angular velocity of the spool. The cable wraps...
- 16.F16-10: F16-10. If crank OA rotates with an angular velocity of a) = 12rad/...
- 16.F16-11: F16 11. If rod AB slides along the horizontal slot with a velocity ...
- 16.F16-12: F16-12. End A of the link has a velocity of vA = 3 m/s. Determine t...
- 16.F16-13: F16-13. Determine the angular velocity of the rod and the velocity ...
- 16.F16-14: F16-14. Determine the angular velocity of link BC and velocity of t...
- 16.F16-15: F16-15. If the center O of the wheel is moving with a speed of v0 =...
- 16.F16-16: FI 6-16. If cable AB is unwound with a speed of 3 m/s, and the gear...
- 16.F16-17: F16-17. Determine the angular velocity of link BC and the velocity ...
- 16.F16-18: FI6-18. Determine the angular velocity of links BC and CD at the in...
- 16.F16-19: F16-19. At the instant shown, end A of the rod has the velocity and...
- 16.F16-20: F16-20. The gear rolls on the fixed rack with an angular velocity o...
- 16.F16-21: F16-21. The gear rolls on the fixed rack B. At the instant shown, t...
- 16.F16-22: F16-22. At the instant shown, cable AB has a velocity of 3 m/s and ...
- 16.F16-23: F16-23. At the instant shown, the wheel rotates with an angular vel...
- 16.F16-24: F16-24. At the instant shown, wheel A rotates with an angular veloc...
- 16.16-1: 16-1. The angular velocity of the disk is defined by u) = (St2 + 2)...
- 16.16-2: 16-2. A flywheel has its angular speed increased uniformly from 15r...
- 16.16-3: 16-3. The disk is originally rotating at w0 = 8 rad/s. Tf it is sub...
- 16.16-4: *16-4. The disk is originally rotating at o>0 = 8 rad/s. If it is s...
- 16.16-5: 16-5. Initially the motor on the circular saw turns its drive shaft...
- 16.16-6: 16-6. A wheel has an initial clockwise angular velocity of 10 rad/s...
- 16.16-7: 16-7. If gear A rotates with a constant angular acceleration of cxA...
- 16.16-8: *16-8. If gear A rotates with an angular velocity of wA = (0.4+1) r...
- 16.16-9: 16-9. The vertical-axis wind turbine consists of two blades that ha...
- 16.16-10: 16-10. The vertical-axis windturbine consists of two blades that ha...
- 16.16-11: 16-11. If the angular velocity of the drum is increased uniformly f...
- 16.16-12: * 16-12. A motor gives gear A an angular acceleration of aA = (O.25...
- 16.16-13: 16-13. A motor gives gear A an angular acceleration of aA = (4/3) r...
- 16.16-14: 16-14. The disk starts from rest and is given an angular accelerati...
- 16.16-15: 16-15. The disk starts from rest and is given an angular accelerati...
- 16.16-16: *16-16. The disk starts at w0 = 1 rad/s when 0 = 0. and is given an...
- 16.16-17: 16-17. Starting at (0^)0 = 3 rad/s, when 0 = 0, s = 0, pulley A is ...
- 16.16-18: 16-18. Starting from rest when s = 0, pulley A is given a constant ...
- 16.16-19: 16-19. The vacuum cleaners armature shaft S rotates with an angular...
- 16.16-20: *16-20. The operation of reverse for a three-speed automotive trans...
- 16.16-21: 16-21. A motor gives disk A a clockwise angular acceleration of aA ...
- 16.16-22: 16-22. For a short time the motor turns gear A with an angular acce...
- 16.16-23: 16-23. The motor turns gear A so that its angular velocity increase...
- 16.16-24: *16-24. The gear A on the drive shaft of the outboard motor has a r...
- 16.16-25: 16-25. For the outboard motor in Prob. 16-24. determine the magnitu...
- 16.16-26: 16-26. The pinion gear A on the motor shaft is given a constant ang...
- 16.16-27: 16-27. For a short time, gear A of the automobile starter rotates w...
- 16.16-28: *16-28. For a short time, gear A of the automobile starter rotates ...
- 16.16-29: 16-29. A mill in a textile plant uses the belt-and-pulley arrangeme...
- 16.16-30: 16-30. A tape having a thickness s wraps around the wheel which is ...
- 16.16-31: 16-31. Due to the screw at E. the actuator provides linear motion t...
- 16.16-32: *16-32. The driving belt is twisted so that pulley B rotates in the...
- 16.16-33: 16-33. Tlie driving belt is twisted so that pulley B rotates in the...
- 16.16-34: 16-34. The rope of diameter d is wrapped around the tapered drum wh...
- 16.16-35: 16-35. If the shaft and plate rotates with a constant angular veloc...
- 16.16-36: *16-36. At the instant shown, the shaft and plate rotates with an a...
- 16.16-37: 16-37. The rod assembly is supported by ball-and-socket joints at A...
- 16.16-38: 16-38. Rotation of the robotic arm occurs due to linear movement of...
- 16.16-39: 16-39. The bar DC rotates uniformly about the shaft at D with a con...
- 16.16-40: *16-40. The mechanism is used to convert the constant circular moti...
- 16.16-41: 16-41. At the instant 8 = 50, the slotted guide is moving upward wi...
- 16.16-42: 16-42. The mechanism shown is known as a Nuremberg scissors. If the...
- 16.16-43: 16-43. The crankshaft AB is rotating at a constant angular velocity...
- 16.16-44: *16-44. Determine the velocity and acceleration of the follower rod...
- 16.16-45: 16-45. Determine the velocity of rod R for any angle $ of the cam C...
- 16.16-46: 16-46. The bridge girder G of a bascule bridge is raised and lowere...
- 16.16-47: 16-47. The circular cam of radius r is rotating clockwise with a co...
- 16.16-48: *16-48. Peg B mounted on hydraulic cylinder BD slides freely along ...
- 16.16-49: 16-49. Bar AB rotates uniformly about the fixed pin A with a consta...
- 16.16-50: 16-50. The block moves to the left with a constant velocity v0. Det...
- 16.16-51: 16-51. The bar is confined to move along the vertical and inclined ...
- 16.16-52: *16-52. Arm AB has an angular velocity of to and an angular acceler...
- 16.16-53: 16-53. If the wedge moves to the left with a constant velocity v. d...
- 16.16-54: 16-54. The slotted yoke is pinned at A while end B is used to move ...
- 16.16-55: 16-55. The Geneva wheel A provides intermittent rotary motion (da f...
- 16.16-56: *16-56. At the instant shown, the disk is rotating with an angular ...
- 16.16-57: 16-57. If h and 0 are known, and the speed of A and B is va = VB ~ ...
- 16.16-58: 16-58. If the block at C is moving downward at 4 ft/s, determine th...
- 16.16-59: 16-59. The velocity of the slider block C is 4 ft/s up the inclined...
- 16.16-60: *16-60. The epicyclic gear train consists of the sun gear A which i...
- 16.16-61: 16-61. Determine the velocity of the block at the instant = 60, if ...
- 16.16-62: 16-62. If the flywheel is rotating with an angular velocity of u)A ...
- 16.16-63: 16-63. If the angular velocity of link AB is a>AB = 3 rad/s, determ...
- 16.16-64: *16-64. The pinion gear A rolls on the fixed gear rack B with an an...
- 16.16-65: 16-65. The pinion gear rolls on the gear racks. If B is moving to t...
- 16.16-66: 16-66. Determine the angular velocity of the gear and the velocity ...
- 16.16-67: 16-67. Determine the velocity of point A on the rim of the gear at ...
- 16.16-68: *16-68. Part of an automatic transmission consists of a fixed ring ...
- 16.16-69: 16-69. If the gear rotates with an angular velocity of a) = lOrad/s...
- 16.16-70: 16-70. If the slider block C is moving at vc 3 m/s, determine the a...
- 16.16-71: 16-71. The two-cylinder engine is designed so that the pistons arc ...
- 16.16-72: 16-74. If crank A B rotates with a constant angular velocity of u)A...
- 16.16-73: *16-72. Determine the velocity of the center O of the spool when th...
- 16.16-74: 16-73. Determine the velocity of point A on the outer rim of the sp...
- 16.16-75: 16-75. If the slider block A is moving downward at oA = 4m/s, deter...
- 16.16-76: *16-76. If the slider block A is moving downward at vA = 4 m/s, det...
- 16.16-77: 16-77. The planetary gear system is used in an automatic transmissi...
- 16.16-78: 16-78. If the ring gear D rotates counterclockwise with an angular ...
- 16.16-79: 16-79. The differential drum operates in such a manner that the rop...
- 16.16-80: *16-80. Mechanical toy animals often use a walking mechanism as sho...
- 16.16-81: 16-81. In each case show graphically how to locate the instantaneou...
- 16.16-82: 16-82. Determine the angular velocity of link AB at the instant sho...
- 16.16-83: 16-83. At the instant shown, the disk is rotating at (o = 4 rad/s. ...
- 16.16-84: *16-84. If link CD has an angular velocity of wCD = 6 rad/s. determ...
- 16.16-85: 16-85. If link CD has an angular velocity of <oCD = 6 rad/s. determ...
- 16.16-86: 16-86. " At the instant shown, the truck travels to the right*16-88...
- 16.16-87: 16-87. If crank AB is rotating with an angular velocity of ldA[{ = ...
- 16.16-88: *16-88. If link AB is rotating at cdah = 6 rad/s, determine the ang...
- 16.16-89: 16-89. The oil pumping unit consists of a walking beam AB. connecti...
- 16.16-90: 16-90. Due to slipping, points A and B on the rim of the disk have ...
- 16.16-91: 16-91. Due to slipping, points A and B on the rim of the disk have ...
- 16.16-92: *16-92. Knowing that the angular velocity of link AB is u)AB = 4 ra...
- 16.16-93: 16-93. If the collar at C is moving downward to the left at vc = 8 ...
- 16.16-94: 16-94. Tf the roller is given a velocity of vA = 6 ft/s to the righ...
- 16.16-95: 16-95. As the car travels forward at 80 ft/s on a wet road, due to ...
- 16.16-96: *16-96. Determine the angular velocity of the doubletooth gear and ...
- 16.16-97: 16-97. The wheel is rigidly attached to gear A, which is in mesh wi...
- 16.16-98: 16-98. The wheel is rigidly attached to gear A. which is in mesh wi...
- 16.16-99: 16-99. The epicyclic gear train is driven by the rotating link DE. ...
- 16.16-100: *16-100. The similar links AR and CD rotate about the fixed pins at...
- 16.16-101: 16101. If rod AR is rotating with an angular velocity toAfi = 3 rad...
- 16.16-102: 16102. If rod AR is rotating with an angular velocity u)AIi = 3 rad...
- 16.16-103: 16-103. At a given instant the top end A of the bar has the velocit...
- 16.16-104: *16-104. At a given instant the bottom A of the ladder has an accel...
- 16.16-105: 16-105. At a given instant the top B of the ladder has an accelerat...
- 16.16-106: 16-106. Crank AH is rotating with an angular velocity of o)AB 5 rad...
- 16.16-107: 16-107. At a given instant, the slider block A has the velocity and...
- 16.16-108: *16-108. As the cord unravels from the cylinder, the cylinder has a...
- 16.16-109: 16-109. The hydraulic cylinder is extending with a velocity of vc =...
- 16.16-110: 16-110. At a given instant the wheel is rotating with the angular m...
- 16.16-111: 16-111. Crank AB rotates with the angular velocity and angular acce...
- 16.16-112: *16-112. The wheel is moving to the right such that it has an angul...
- 16.16-113: 16-113. Tlie disk is moving to the left such that it has an angular...
- 16.16-114: 16-114. The disk is moving to the left such that it has an angular ...
- 16.16-115: 16-115. A cord is wrapped around the inner spool of the gear. If it...
- 16.16-116: *16-116. At a given instant, the gear racks have the velocities and...
- 16.16-117: 16-117. At a given instant, the gear racks have the velocities and ...
- 16.16-118: 16-118. At a given instant gears A and R have the angular motions s...
- 16.16-119: 16-119. The wheel rolls without slipping such that at the instant s...
- 16.16-120: *16-120. The center O of the gear and the gear rack P move with the...
- 16.16-121: 16-121. The tied crank and gear mechanism gives rocking motion to c...
- 16.16-122: 16-122. Pulley A rotates with the angular velocity and angular acce...
- 16.16-123: 16-123. Pulley A rotates with the angular velocity and angular acce...
- 16.16-124: 16-124. At a given instant, the gear has the angular motion shown. ...
- 16.16-125: 16-125. The ends of the bar AB are confined to move along the paths...
- 16.16-126: 16-126. At a given instant, the cables supporting the pipe have the...
- 16.16-127: 16-127. The slider block moves with a velocity of vB = 5 ft/s and a...
- 16.16-128: *16-128. The slider block moves with a velocity of uB = 5 ft/s and ...
- 16.16-129: 16-129. Ball C moves along the slot from A to B with a speed of 3 f...
- 16.16-130: 16-130. The crane's telescopic boom rotates with the angular veloci...
- 16.16-131: 16-131. While the swing bridge is closing with a constant rotation ...
- 16.16-132: *16-132. While the swing bridge is closing with a constant rotation...
- 16.16-133: 16-133. Collar C moves along rod BA with a velocity of 3 m/s and an...
- 16.16-134: 16-134. Block A, which is attached to a cord, moves along the slot ...
- 16.16-135: 16-135. A girl stands al A on a platform which is rotating with a c...
- 16.16-136: *16-136. A girl stands at A on a platform which is rotating with an...
- 16.16-137: 16137. At the instant shown, rod AB has an angular velocity wAB =3 ...
- 16.16-138: 16138. Collar B moves to the left with a speed of 5 m/s, which is i...
- 16.16-139: 16-139. Block B of the mechanism is confined to move within the slo...
- 16.16-140: *16-140. At the instant shown rod AB has an angular velocity u)AB =...
- 16.16-141: 16-141. The quick-return" mechanism consists of a crank AB. slider ...
- 16.16-142: 16-142. At the instant shown, the robotic arm AB is rotating counte...
- 16.16-143: 16-143. Peg B on the gear slides freely along the slot in link AB. ...
- 16.16-144: *16-144. The cars on the amusement-park ride rotate around the axle...
- 16.16-145: 16-145. The cars on the amusement-park ride rotate around the axle ...
- 16.16-146: 16-146. If the slotted arm AB rotates about the pin A with link AB....
- 16.16-147: 16-147. At the instant shown, boat A travels with a speed of 15 m/s...
- 16.16-148: *16-148. At the instant shown, boat A travels with a speed of 15m/s...
- 16.16-149: 16-149. If the piston is moving with a velocity of vA = 3 m/s and a...
- 16.16-150: 16-150. The two-link mechanism serves to amplify angular motion. Li...
- 16.16-151: 16151. The gear has the angular motion shown. Determine the angular...
- 16.16-152: *16-152. The Geneva mechanism is used in a packaging system to conv...
- 16.P16-1: P16-1. An electric motor turns the tire at A at a constant angular ...
- 16.P16-2: P16-2. The crank AB turns counterclockwise at a constant rate oj ca...
- 16.P16-3: P16-3. The bi-fold hangar door is opened by cables that move upward...
- 16.P16-4: P16-4. Tf the tires do not slip on the pavement, determine the poin...

# Solutions for Chapter 16: Engineering Mechanics: Dynamics 13th Edition

## Full solutions for Engineering Mechanics: Dynamics | 13th Edition

ISBN: 9780132911276

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