Chapter 3, Problem 44P

Take F = 310 N and d = 1.0 m Determine the force in cable AC and AB needed to hold the 24-kg ball D in equilibrium.

Determine the magnitude of Q if the particle is in equilibrium and if θ =35.5°, P = 296 , a=5, and b=16.

-: Determine the magnitudes of F1, F2, and F3 for equilibrium of the particle. Use F = [-9i – 8j – 5k] 60° kN. 135° 60° 60° -y 4m 300 4 m 2 m F

If block B weighs 300 lb and block C weighs 200 lb, determine the following:   3.1 The required angle for equilibrium is Blank 1°. 3.2 The required weight of block D for equilibrium is Blank 2 lb. 3.3 If block D weighs 253 lb and the measure of angle = 39.2°, determine the required weight of block B for equilibrium.

II. The equilibrium system: M=500N m, q=100N/m , a=1m, Determine the reactions for the supports A and В. M a

The diagram shows a particle in equilibrium on an inclined plane under the forces shown. Find the magnitude of the force P and the magnitude of the angle a. 1PN 2 N 5 N 8 NA 30°

Determine the reactions at A and B.

W B D Determine the force P required to hold the w = 100-lb weight in equilibrium.

Determine the tension in chain AC and weight of the box so that the particle is in equilibrium as shown in Figure 2. The tension in chain AB is 300 N. Figure 2