- 10.10.1: Determine the vertical force P that must be applied at G to maintai...
- 10.10.2: Determine the vertical force P that must be applied at G to maintai...
- 10.10.3: Determine the couple M that must be applied to member DEFG to maint...
- 10.10.4: Determine the couple M that must be applied to member DEFG to maint...
- 10.10.5: Determine the force P required to maintain the equilibrium of the l...
- 10.10.6: Solve Prob. 10.5 assuming that the vertical force P is applied at p...
- 10.10.7: The two-bar linkage shown is supported by a pin and bracket at B an...
- 10.10.8: Knowing that the maximum friction force exerted by the bottle on th...
- 10.10.9: Rod AD is acted upon by a vertical force P at end A and by two equa...
- 10.10.10: The slender rod AB is attached to a collar A and rests on a small w...
- 10.10.11: The slender rod AB is attached to a collar A and rests on a small w...
- 10.10.12: Knowing that the line of action of the force Q passes through point...
- 10.10.13: Solve Prob. 10.12 assuming that the force P applied at point A acts...
- 10.10.14: The mechanism shown is acted upon by the force P; derive an express...
- 10.10.15: Derive an expression for the magnitude of the couple M required to ...
- 10.10.16: Derive an expression for the magnitude of the couple M required to ...
- 10.10.17: A uniform rod AB of length l and weight W is suspended from two cor...
- 10.10.18: Collar B can slide along rod AC and is attached by a pin to a block...
- 10.10.19: For the linkage shown, determine the couple M required for equilibr...
- 10.10.20: For the linkage shown, determine the force Q required for equilibri...
- 10.10.21: A 4-kN force P is applied as shown to the piston of the engine syst...
- 10.10.22: A couple M of magnitude 100 N ? m is applied as shown to the crank ...
- 10.10.23: A slender rod of length l is attached to a collar at B and rests on...
- 10.10.24: A slender rod of length l is attached to a collar at B and rests on...
- 10.10.25: Determine the value of u corresponding to the equilibrium position ...
- 10.10.26: Determine the values of u corresponding to the equilibrium position...
- 10.10.27: Determine the value of u corresponding to the equilibrium position ...
- 10.10.28: Determine the value of u corresponding to the equilibrium position ...
- 10.10.29: A load W of magnitude 600 N is applied to the linkage at B. The con...
- 10.10.30: A vertical load W is applied to the linkage at B. The constant of t...
- 10.10.31: Two bars AD and DG are connected by a pin at D and by a spring AG. ...
- 10.10.32: Solve Prob. 10.31 assuming that the 900-lb vertical force is applie...
- 10.10.33: Two 5-kg bars AB and BC are connected by a pin at B and by a spring...
- 10.10.34: Rod ABC is attached to blocks A and B that can move freely in the g...
- 10.10.35: A vertical force P of magnitude 150 N is applied to end E of cable ...
- 10.10.36: A horizontal force P of magnitude 40 lb is applied to the mechanism...
- 10.10.37: Knowing that the constant of spring CD is k and that the spring is ...
- 10.10.38: Knowing that the constant of spring CD is k and that the spring is ...
- 10.10.39: The lever AB is attached to the horizontal shaft BC that passes thr...
- 10.10.40: Solve Prob. 10.39 assuming that P 5 350 N, l 5 250 mm, and K 5 12.5...
- 10.10.41: The position of boom ABC is controlled by the hydraulic cylinder BD...
- 10.10.42: The position of boom ABC is controlled by the hydraulic cylinder BD...
- 10.10.43: The position of member ABC is controlled by the hydraulic cylinder ...
- 10.10.44: The position of member ABC is controlled by the hydraulic cylinder ...
- 10.10.45: The telescoping arm ABC is used to provide an elevated platform for...
- 10.10.46: Solve Prob. 10.45 assuming that the workers are lowered to a point ...
- 10.10.47: Denoting by ms the coefficient of static friction between collar C ...
- 10.10.48: Knowing that the coefficient of static friction between collar C an...
- 10.10.49: A block of weight W is pulled up a plane forming an angle a with th...
- 10.10.50: Derive an expression for the mechanical efficiency of the jack disc...
- 10.10.51: Denoting by m s the coefficient of static friction between the bloc...
- 10.10.52: Knowing that the coefficient of static friction between the block a...
- 10.10.53: Using the method of virtual work, determine the reaction at E.
- 10.10.54: Using the method of virtual work, determine separately the force an...
- 10.10.55: Referring to Prob. 10.43 and using the value found for the force ex...
- 10.10.56: Referring to Prob. 10.45 and using the value found for the force ex...
- 10.10.57: Determine the vertical movement of joint D if the length of member ...
- 10.10.58: Determine the horizontal movement of joint D if the length of membe...
- 10.10.59: Using the method of Sec. 10.8, solve Prob. 10.29.
- 10.10.60: Using the method of Sec. 10.8, solve Prob. 10.30.
- 10.10.61: Using the method of Sec. 10.8, solve Prob. 10.31.
- 10.10.62: Using the method of Sec. 10.8, solve Prob. 10.32.
- 10.10.63: Using the method of Sec. 10.8, solve Prob. 10.33.
- 10.10.64: Using the method of Sec. 10.8, solve Prob. 10.35.
- 10.10.65: Using the method of Sec. 10.8, solve Prob. 10.37.
- 10.10.66: Using the method of Sec. 10.8, solve Prob. 10.38.
- 10.10.67: Show that equilibrium is neutral in Prob. 10.1.
- 10.10.68: Show that equilibrium is neutral in Prob. 10.7.
- 10.10.69: Two uniform rods, each of mass m, are attached to gears of equal ra...
- 10.10.70: Two uniform rods, AB and CD, are attached to gears of equal radii a...
- 10.10.71: Two uniform rods, each of mass m and length l, are attached to gear...
- 10.10.72: Two uniform rods, each of mass m and length l, are attached to drum...
- 10.10.73: Using the method of Sec. 10.8, solve Prob. 10.39. Determine whether...
- 10.10.74: In Prob. 10.40, determine whether each of the positions of equilibr...
- 10.10.75: A load W of magnitude 100 lb is applied to the mechanism at C. Know...
- 10.10.76: A load W of magnitude 100 lb is applied to the mechanism at C. Know...
- 10.10.77: A slender rod AB, of weight W, is attached to two blocks A and B th...
- 10.10.78: A slender rod AB, of weight W, is attached to two blocks A and B th...
- 10.10.79: A slender rod AB, of weight W, is attached to two blocks A and B th...
- 10.10.80: A slender rod AB, of weight W, is attached to two blocks A and B th...
- 10.10.81: A spring AB of constant k is attached to two identical gears as sho...
- 10.10.82: A spring AB of constant k is attached to two identical gears as sho...
- 10.10.83: A slender rod AB is attached to two collars A and B that can move f...
- 10.10.84: A slender rod AB is attached to two collars A and B that can move f...
- 10.10.85: Cart B, which weighs 75 kN, rolls along a sloping track that forms ...
- 10.10.86: Cart B, which weighs 75 kN, rolls along a sloping track that forms ...
- 10.10.87: Collar A can slide freely on the semicircular rod shown. Knowing th...
- 10.10.88: Collar A can slide freely on the semicircular rod shown. Knowing th...
- 10.10.89: Two bars AB and BC of negligible weight are attached to a single sp...
- 10.10.90: A vertical bar AD is attached to two springs of constant k and is i...
- 10.10.91: Rod AB is attached to a hinge at A and to two springs, each of cons...
- 10.10.92: Rod AB is attached to a hinge at A and to two springs, each of cons...
- 10.10.93: Two bars are attached to a single spring of constant k that is unst...
- 10.10.94: Two bars are attached to a single spring of constant k that is unst...
- 10.10.95: The horizontal bar BEH is connected to three vertical bars. The col...
- 10.10.96: The horizontal bar BEH is connected to three vertical bars. The col...
- 10.10.97: Bars AB and BC, each of length l and of negligible weight, are atta...
- 10.10.98: Solve Prob. 10.97 knowing that l 5 800 mm and k 5 2.5 kN/m.
- 10.10.99: Two rods of negligible weight are attached to drums of radius r tha...
- 10.10.100: Solve Prob. 10.99 knowing that k 5 20 lb/in., r 5 3 in., l 5 6 in.,...
- 10.10.101: Determine the horizontal force P that must be applied at A to maint...
- 10.10.102: Determine the couple M that must be applied to member ABC to mainta...
- 10.10.103: A spring of constant 15 kN/m connects points C and F of the linkage...
- 10.10.104: Derive an expression for the magnitude of the force Q required to m...
- 10.10.105: Derive an expression for the magnitude of the couple M required to ...
- 10.10.106: Two rods AC and CE are connected by a pin at C and by a spring AE. ...
- 10.10.107: A force P of magnitude 240 N is applied to end E of cable CDE, whic...
- 10.10.108: Two identical rods ABC and DBE are connected by a pin at B and by a...
- 10.10.109: Solve Prob. 10.108 assuming that the 24-lb load is applied at C ins...
- 10.10.110: Two bars AB and BC are attached to a single spring of constant k th...
- 10.10.111: A homogeneous hemisphere of radius Review r is placed on an incline...
- 10.10.112: A homogeneous hemisphere of radius r is placed on an incline as sho...

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

## Full solutions for Vector Mechanics for Engineers: Dynamics | 10th Edition

ISBN: 9780073398136

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