- 11.11-1: The scissors jack supports a load P . Determine the axial force in ...
- 11.11-2: Use the method of virtual work to determine the tension in cable AC...
- 11.11-3: The vent plate is supported at B by a pin. If it weighs 15 lb and h...
- 11.11-4: The spring has an unstretched length of 0.3 m. Determine the angle ...
- 11.11-5: The pin-connected mechanism is constrained at A by a pin and at B b...
- 11.11-6: The pin-connected mechanism is constrained by a pin at A and a roll...
- 11.11-7: The 4-ft members of the mechanism are pin connected at their center...
- 11.11-8: If each of the three links of the mechanism has a weight of 20 lb, ...
- 11.11-9: When u = 20, the 50-lb uniform block compresses the two vertical sp...
- 11.11-10: The thin rod of weight W rest against the smooth wall and floor. De...
- 11.11-11: Determine the force F acting on the cord which is required to maint...
- 11.11-12: Determine the angles u for equilibrium of the 4-lb disk using the p...
- 11.11-13: Each member of the pin-connected mechanism has a mass of 8 kg. If t...
- 11.11-14: Each member of the pin-connected mechanism has a mass of 8 kg. If t...
- 11.11-15: Each member of the pin-connected mechanism has a mass of 8 kg. If t...
- 11.11-16: If the spring is unstretched when u = 30 , the mass of the cylinder...
- 11.11-17: If the spring has a torsional stiffness of k = 300 N # m>rad and it...
- 11.11-18: A 5-kg uniform serving table is supported on each side by pairs of ...
- 11.11-19: A 5-kg uniform serving table is supported on each side by two pairs...
- 11.11-20: Determine the weight of block G required to balance the differentia...
- 11.11-21: If the load F weighs 20 lb and the block G weighs 2 lb, determine i...
- 11.11-22: The dumpster has a weight W and a center of gravity at G . Determin...
- 11.11-23: The crankshaft is subjected to a torque of M = 50 N # m. Determine ...
- 11.11-24: The crankshaft is subjected to a torque of M = 50 N # m. Determine ...
- 11.11-25: Rods AB and BC have centers of mass located at their midpoints. If ...
- 11.11-26: If the potential energy for a conservative onedegree-of-freedom sys...
- 11.11-27: If the potential function for a conservative one-degree-of-freedom ...
- 11.11-28: If the potential function for a conservative one-degree-of-freedom ...
- 11.11-29: The potential energy of a one-degree-of-freedom system is defined b...
- 11.11-30: If the potential function for a conservative onedegree-of-freedom s...
- 11.11-31: Determine the angle u for equilibrium and investigate the stability...
- 11.11-32: The spring of the scale has an unstretched length of a . Determine ...
- 11.11-33: If the springs at A and C have an unstretched length of 10 in. whil...
- 11.11-34: The spring is unstretched when u = 45 and has a stiffness of k = 10...
- 11.11-35: The two bars each have a weight of 8 lb. Determine the angle u for ...
- 11.11-36: Determine the angle u for equilibrium and investigate the stability...
- 11.11-37: The two bars each have a weight of 8 lb. Determine the required sti...
- 11.11-38: A homogeneous block rests on top of the cylindrical surface. Derive...
- 11.11-39: The assembly shown consists of a semicircular cylinder and a triang...
- 11.11-40: A spring with a torsional stiffness k is attached to the pin at B ....
- 11.11-41: A spring having a stiffness k = 100 lb > ft and a cylinder weighing...
- 11.11-42: The small postal scale consists of a counterweight W1 , connected t...
- 11.11-43: If the spring has a torsional stiffness k = 300 N # m > rad and is ...
- 11.11-44: The truck has a mass of 20 Mg and a mass center at G . Determine th...
- 11.11-45: The cylinder is made of two materials such that it has a mass of m ...
- 11.11-46: If each of the three links of the mechanism has a weight W, determi...
- 11.11-47: If the uniform rod OA has a mass of 12 kg, determine the mass m tha...
- 11.11-48: The triangular block of weight W rests on the smooth corners which ...
- 11.11-49: Two uniform bars, each having a weight W , are pin connected at the...

# Solutions for Chapter 11: Engineering Mechanics: Statics 13th Edition

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

ISBN: 9780132915540

Solutions for Chapter 11

Get Full Solutions
Solutions for Chapter 11

29

1

Engineering Mechanics: Statics was written by and is associated to the ISBN: 9780132915540. This expansive textbook survival guide covers the following chapters and their solutions. Chapter 11 includes 49 full step-by-step solutions. Since 49 problems in chapter 11 have been answered, more than 74034 students have viewed full step-by-step solutions from this chapter. This textbook survival guide was created for the textbook: Engineering Mechanics: Statics, edition: 13.

Key Engineering and Tech Terms and definitions covered in this textbook