- 16.16.1: A conveyor system is fitted with vertical panels, and a 15-in. rod ...
- 16.16.2: A conveyor system is fitted with vertical panels, and a 15-in. rod ...
- 16.16.3: Knowing that the coefficient of static friction between the tires a...
- 16.16.4: The motion of the 2.5-kg rod AB is guided by two small wheels which...
- 16.16.5: A uniform rod BC of mass 4 kg is connected to a collar A by a 250-m...
- 16.16.6: A 2000-kg truck is being used to lift a 400-kg boulder B that is on...
- 16.16.7: The support bracket shown is used to transport a cylindrical can fr...
- 16.16.8: Solve Prob. 16.7, assuming that the acceleration a of the bracket i...
- 16.16.9: A 20-kg cabinet is mounted on casters that allow it to move freely ...
- 16.16.10: Solve Prob. 16.9, assuming that the casters are locked and slide on...
- 16.16.11: A completely filled barrel and its contents have a combined mass of...
- 16.16.12: A 40-kg vase has a 200-mm-diameter base and is being moved using a ...
- 16.16.13: The retractable shelf shown is supported by two identical linkagean...
- 16.16.14: A uniform rectangular plate has a mass of 5 kg and is held in posit...
- 16.16.15: A uniform rectangular plate has a mass of 5 kg and is held in posit...
- 16.16.16: Three bars, each of mass 3 kg, are welded together and pinconnected...
- 16.16.17: Members ACE and DCB are each 600 mm long and are connected by a pin...
- 16.16.18: The 15-lb rod BC connects a disk centered at A to crank CD. Knowing...
- 16.16.19: The triangular weldment ABC is guided by two pins that slide freely...
- 16.16.20: The coefficients of friction between the 30-lb block and the 5-lb p...
- 16.16.21: Draw the shear and bending-moment diagrams for the vertical rod AB ...
- 16.16.22: Draw the shear and bending-moment diagrams for the connecting rod B...
- 16.16.23: For a rigid slab in translation, show that the system of the effect...
- 16.16.24: For a rigid slab in centroidal rotation, show that the system of th...
- 16.16.25: The rotor of an electric motor has an angular velocity of 3600 rpm ...
- 16.16.26: It takes 10 min for a 6000-lb flywheel to coast to rest from an ang...
- 16.16.27: The 8-in.-radius brake drum is attached to a larger flywheel that i...
- 16.16.28: Solve Prob. 16.27, assuming that the initial angular velocity of th...
- 16.16.29: The 100-mm-radius brake drum is attached to a flywheel which is not...
- 16.16.30: The 180-mm-radius disk is at rest when it is placed in contact with...
- 16.16.31: Solve Prob. 16.30, assuming that the direction of motion of the bel...
- 16.16.32: In order to determine the mass moment of inertia of a flywheel of r...
- 16.16.33: The flywheel shown has a radius of 20 in., a weight of 250 lb, and ...
- 16.16.34: Each of the double pulleys shown has a mass moment of inertia of 15...
- 16.16.35: Each of the gears A and B has a mass of 9 kg and has a radius of gy...
- 16.16.36: Solve Prob. 16.35, assuming that the couple M is applied to disk A.
- 16.16.37: Gear A weighs 1 lb and has a radius of gyration of 1.3 in; gear B w...
- 16.16.38: Disks A and B are bolted together, and cylinders D and E are attach...
- 16.16.39: A belt of negligible mass passes between cylinders A and B and is p...
- 16.16.40: Solve Prob. 16.39 for P 5 2.00 lb.
- 16.16.41: Disk A has a mass of 6 kg and an initial angular velocity of 360 rp...
- 16.16.42: Solve Prob. 16.41, assuming that initially disk A is at rest and di...
- 16.16.43: Disk A has a mass mA 5 4 kg, a radius rA 5 300 mm, and an initial a...
- 16.16.44: Disk B is at rest when it is brought into contact with disk A, whic...
- 16.16.45: Cylinder A has an initial angular velocity of 720 rpm clockwise, an...
- 16.16.46: Show that the system of the effective forces for a rigid slab in pl...
- 16.16.47: For a rigid slab in plane motion, show that the system of the effec...
- 16.16.48: A uniform slender rod AB rests on a frictionless horizontal surface...
- 16.16.49: a) In Prob. 16.48, determine the point of the rod AB at which the f...
- 16.16.50: A force P of magnitude 3 N is applied to a tape wrapped around a th...
- 16.16.51: 1 A force P is applied to a tape wrapped around a uniform disk that...
- 16.16.52: A 250-lb satellite has a radius of gyration of 24 in. with respect ...
- 16.16.53: A rectangular plate of mass 5 kg is suspended from four vertical wi...
- 16.16.54: A uniform slender L-shaped bar ABC is at rest on a horizontal surfa...
- 16.16.55: By pulling on the string of a yo-yo, a person manages to make the y...
- 16.16.56: The 80-g yo-yo shown has a centroidal radius of gyration of 30 mm. ...
- 16.16.57: A 6-lb sprocket wheel has a centroidal radius of gyration of 2.75 i...
- 16.16.58: The steel roll shown has a mass of 1200 kg, a centroidal radius of ...
- 16.16.59: The steel roll shown has a mass of 1200 kg, has a centroidal radius...
- 16.16.60: A 15-ft beam weighing 500 lb is lowered by means of two cables unwi...
- 16.16.61: A 15-ft beam weighing 500 lb is lowered by means of two cables unwi...
- 16.16.62: Two uniform cylinders, each of weight W 5 14 lb and radius r 5 5 in...
- 16.16.63: A beam AB of mass m and of uniform cross section is suspended from ...
- 16.16.64: A beam AB of mass m and of uniform cross section is suspended from ...
- 16.16.65: A beam AB of mass m and of uniform cross section is suspended from ...
- 16.16.66: A thin plate of the shape indicated and of mass m is suspended from...
- 16.16.67: A thin plate of the shape indicated and of mass m is suspended from...
- 16.16.68: A thin plate of the shape indicated and of mass m is suspended from...
- 16.16.69: A sphere of radius r and mass m is projected along a rough horizont...
- 16.16.70: Solve Prob. 16.69, assuming that the sphere is replaced by a unifor...
- 16.16.71: A bowler projects an 8-in.-diameter ball weighing 12 lb along an al...
- 16.16.72: Solve Prob. 16.71, assuming that the bowler projects the ball with ...
- 16.16.73: A uniform sphere of radius r and mass m is placed with no initial v...
- 16.16.74: A sphere of radius r and mass m has a linear velocity v0 directed t...
- 16.16.75: Show that the couple IA of Fig. 16.15 can be eliminated by attachin...
- 16.16.76: A uniform slender rod of length L 5 900 mm and mass m 5 4 kg is sus...
- 16.16.77: In Prob. 16.76, determine (a) the distance r for which the horizont...
- 16.16.78: A uniform slender rod of length L 5 36 in. and weight W 5 4 lb hang...
- 16.16.79: In Prob. 16.78, determine (a) the distance h for which the horizont...
- 16.16.80: The uniform slender rod AB is welded to the hub D, and the system r...
- 16.16.81: The shutter shown was formed by removing one quarter of a disk of 0...
- 16.16.82: A 6-in.-diameter hole is cut as shown in a thin disk of 15-in. diam...
- 16.16.83: A turbine disk of mass 26 kg rotates at a constant rate of 9600 rpm...
- 16.16.84: A uniform rod of length L and mass m is supported as shown. If the ...
- 16.16.85: A uniform rod of length L and mass m is supported as shown. If the ...
- 16.16.86: A 12-lb uniform plate rotates about A in a vertical plane under the...
- 16.16.87: A 1.5-kg slender rod is welded to a 5-kg uniform disk as shown. The...
- 16.16.88: Two uniform rods, ABC of weight 6 lb and DCE of weight 8 lb, are co...
- 16.16.89: The object ABC consists of two slender rods welded together at poin...
- 16.16.90: A 3.5-kg slender rod AB and a 2-kg slender rod BC are connected by ...
- 16.16.91: A 9-kg uniform disk is attached to the 5-kg slender rod AB by means...
- 16.16.92: Derive the equation oMC 5 ICa for the rolling disk of Fig. 16.17, w...
- 16.16.93: Show that in the case of an unbalanced disk, the equation derived i...
- 16.16.94: A wheel of radius r and centroidal radius of gyration k is released...
- 16.16.95: A homogeneous sphere S, a uniform cylinder C, and a thin pipe P are...
- 16.16.96: A 40-kg flywheel of radius R 5 0.5 m is rigidly attached to a shaft...
- 16.16.97: A 40-kg flywheel of radius R 5 0.5 m is rigidly attached to a shaft...
- 16.16.98: A drum of 60-mm radius is attached to a disk of 120-mm radius. The ...
- 16.16.99: A drum of 60-mm radius is attached to a disk of 120-mm radius. The ...
- 16.16.100: A drum of 60-mm radius is attached to a disk of 120-mm radius. The ...
- 16.16.101: A drum of 60-mm radius is attached to a disk of 120-mm radius. The ...
- 16.16.102: A drum of 4-in. radius is attached to a disk of 8-in. radius. The d...
- 16.16.103: A drum of 4-in. radius is attached to a disk of 8-in. radius. The d...
- 16.16.104: A drum of 4-in. radius is attached to a disk of 8-in. radius. The d...
- 16.16.105: A drum of 4-in. radius is attached to a disk of 8-in. radius. The d...
- 16.16.106: A 12-in.-radius cylinder of weight 16 lb rests on a 6-lb carriage. ...
- 16.16.107: A 12-in.-radius cylinder of weight 16 lb rests on a 6-lb carriage. ...
- 16.16.108: Gear C has a mass of 5 kg and a centroidal radius of gyration of 75...
- 16.16.109: Two uniform disks A and B, each of mass 2 kg, are connected by a 1....
- 16.16.110: A 10-lb cylinder of radius r 5 4 in. is resting on a conveyor belt ...
- 16.16.111: A hemisphere of weight W and radius r is released from rest in the ...
- 16.16.112: Solve Prob. 16.111, considering a half cylinder instead of a hemisp...
- 16.16.113: The center of gravity G of a 1.5-kg unbalanced tracking wheel is lo...
- 16.16.114: A small clamp of mass mB is attached at B to a hoop of mass mh. The...
- 16.16.115: A small clamp of mass mB is attached at B to a hoop of mass mh. Kno...
- 16.16.116: A 4-lb bar is attached to a 10-lb uniform cylinder by a square pin,...
- 16.16.117: The ends of the 20-lb uniform rod AB are attached to collars of neg...
- 16.16.118: The ends of the 20-lb uniform rod AB are attached to collars of neg...
- 16.16.119: The motion of the 3-kg uniform rod AB is guided by small wheels of ...
- 16.16.120: A beam AB of length L and mass m is supported by two cables as show...
- 16.16.121: End A of a uniform 10-kg bar is attached to a horizontal rope and e...
- 16.16.122: End A of the 8-kg uniform rod AB is attached to a collar that can s...
- 16.16.123: A uniform thin plate ABCD has a mass of 8 kg and is held in positio...
- 16.16.124: The 4-kg uniform rod ABD is attached to the crank BC and is fitted ...
- 16.16.125: The 7-lb uniform rod AB is connected to crank BD and to a collar of...
- 16.16.126: In Prob. 16.125, determine the reaction at A, knowing that in the p...
- 16.16.127: The 250-mm uniform rod BD , of mass 5 kg, is connected as shown to ...
- 16.16.128: Solve Prob. 16.127 when u 5 90.
- 16.16.129: The 4-kg uniform slender bar BD is attached to bar AB and a wheel o...
- 16.16.130: The motion of the uniform slender rod of length L 5 0.5 m and mass ...
- 16.16.131: At the instant shown, the 20-ft-long, uniform 100-lb pole ABC has a...
- 16.16.132: A driver starts his car with the door on the passengers side wide o...
- 16.16.133: For the car of Prob. 16.132, determine the smallest constant accele...
- 16.16.134: Two 8-lb uniform bars are connected to form the linkage shown. Negl...
- 16.16.135: The 6-kg rod BC connects a 10-kg disk centered at A to a 5-kg rod C...
- 16.16.136: The 6-kg rod BC connects a 10-kg disk centered at A to a 5-kg rod C...
- 16.16.137: In the engine system shown l 5 250 mm and b 5 100 mm. The connectin...
- 16.16.138: Solve Prob. 16.137 when u 5 90.
- 16.16.139: The 4-lb rod AB and the 6-lb rod BC are connected as shown to a dis...
- 16.16.140: The 4-lb rod AB and the 6-lb rod BC are connected as shown to a dis...
- 16.16.141: Two rotating rods in the vertical plane are connected by a slider b...
- 16.16.142: Two rotating rods in the vertical plane are connected by a slider b...
- 16.16.143: Draw the shear and bending-moment diagrams for the rod of Prob. 16....
- 16.16.144: A uniform slender bar AB of mass m is suspended as shown from a uni...
- 16.16.145: A uniform rod AB, of mass 15 kg and length 1 m, is attached to the ...
- 16.16.146: The 5-kg slender rod AB is pin-connected to an 8-kg uniform disk as...
- 16.16.147: The 6-lb cylinder B and the 4-lb wedge A are held at rest in the po...
- 16.16.148: The 6-lb cylinder B and the 4-lb wedge A are held at rest in the po...
- 16.16.149: Each of the 3-kg bars AB and BC is of length L 5 500 mm. A horizont...
- 16.16.150: Each of the 3-kg bars AB and BC is of length L 5 500 mm. A horizont...
- 16.16.151: (a) Determine the magnitude and the location of the maximum bending...
- 16.16.152: Draw the shear and bending-moment diagrams for the rod of Prob. 16....
- 16.16.153: A cyclist is riding a bicycle at a speed of 20 mph on a horizontal ...
- 16.16.154: The forklift truck shown weighs 2250 lb and is used to lift a crate...
- 16.16.155: A 5-kg uniform disk is attached to the 3-kg uniform rod BC by means...
- 16.16.156: Identical cylinders of mass m and radius r are pushed by a series o...
- 16.16.157: The uniform rod AB of weight W is released from rest when b 5 70. A...
- 16.16.158: The uniform rod AB of weight W is released from rest when b 5 70. A...
- 16.16.159: A bar of mass m 5 5 kg is held as shown between four disks, each of...
- 16.16.160: A uniform plate of mass m Review is suspended in each of the ways s...
- 16.16.161: A cylinder with a circular hole is rolling without slipping on a fi...
- 16.16.162: The motion of a square plate of side 150 mm and mass 2.5 kg is guid...
- 16.16.163: The motion of a square plate of side 150 mm and mass 2.5 kg is guid...
- 16.16.164: The Geneva mechanism shown is used to provide an intermittent rotar...

# Solutions for Chapter 16: Vector Mechanics for Engineers: Dynamics 10th Edition

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ISBN: 9780073398136

Solutions for Chapter 16

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