Assignment:
1). Equilibrium of 3-D Rigid Body
The plate weighs 350 N. Determine the force in each cable (TA Ts Tc) if it is suspended in the horizontal plane.
![1541_Problem 1.jpg](https://secure.tutorsglobe.com/CMSImages/1541_Problem 1.jpg)
2). Method of Section
Determine the force in members GE, GC, and BC of the truss shown. Indicate whether the members are in tension or compression.
![612_Problem 2.jpg](https://secure.tutorsglobe.com/CMSImages/612_Problem 2.jpg)
3). Shear and Moment Diagram
a). Construct a shear diagram for the beam shown below.
b). Construct a bending moment diagram for the beam shown below.
![1316_Problem 3.jpg](https://secure.tutorsglobe.com/CMSImages/1316_Problem 3.jpg)
4). Friction
a). Determine the minimal horizontal force P that will prevent the 1750-lb crate from slipping down the inclined plane. Use ps = 0.3
b). Determine the minimal horizontal force P will push the 500-lb crate up the inclined plane. Use µ< = 0.2
![798_Problem 4.jpg](https://secure.tutorsglobe.com/CMSImages/798_Problem 4.jpg)
5). Moment of Inertia
Determine the moment of inertia (h) of the cross section of I-beam shown, with respect to the x axis
![697_Problem 6.jpg](https://secure.tutorsglobe.com/CMSImages/697_Problem 6.jpg)