1. In the diagram below, three forces are applied to a 3-4-5 triangle. The forces are F₁ = 91.7 N, F₂ = 150 N, and F₃ = 67.7 N. F₃ is applied at the middle of side AB. (a) Find the net torque about point A. (b) Find the net torque about point B. (c) Find the net torque about point C.
   

2. An L-shaped object of uniform density is hung over a nail so that it is free to pivot. What angle, θ, does the long side make with the vertical? The long side of the L-shaped object is twice as long as the short side?
   

3. A uniform 400 N boom is supported as shown in the figure below. Find the tension in the tie rope and the force exerted on the boon by the pin at P.
   
   

4. In the figure below, a mass of 500 kg is held motionless in the air by a 120-kg boom and a rope. Find the tension in the rope. Find the force exerted on the boom by the pin at P. The angles are θ = 30.0° and φ = 45.0°.
   

5. A rectangular sign of mass 50.0 kg and width w = 5.00 m and l = length 4.00 m is hanging from a hinge and a rope as shown in the figure below. The rope makes and angle θ = 65.0° with the right wall.
   (a) Find the tension in the rope.
   (b) Find the horizontal and vertical components of the hinge force.
   
   

6. Find the centre of mass of the object shown below. Determine the tension in the strings and the unknown angle θ. Each square has a side of length 32.0 cm. The object has a mass of 125 g.
   
   

7. The sign has a mass of 20.0 kg. The hinge is located at the bottom of the left side. Find the centre of mass. Determine the tension in the rope and the horizontal and vertical components of the hinge force. The length, l, is 12 cm.
   

8. A ladder is propped against a wall making an angle with the floor. The wall is frictionless but the coefficients of friction for the floor are μ_s and μ_k respectively. Obtain an expression for the smallest that can be if the ladder is not to slip. Recall that tanθ = sinθ/cosθ.
   
   

Questions? mikec@kwantlen.bc.ca