Obtain the rectangular representation of the force P. The
magnitude of P is 30-lbf
50° 30°
Obtain the rectangular representation of the force P. The magnitude of P is 30-lbf
Problem 1: Using rectangular components method, determine the magnitude and direction of the resultant force acting on the hook shown. Fi-250 lb -30% 45° F2-375 lb
What is the magnitude of Force P? 30° 10cm 3cm cm 9cm 9 cm 10 cm 150 N Use the above diagram for P3. P3) If the winch is in static equilibrium, what is the magnitude of force P? Assume the bearings at A and B do not provide a reaction force or moment along the x-axis (i.e. they allow free sliding and spinning).
Consider the wooden board hinged as shown with the 50 lbf force applied as shown. 50j (lb) .T 4,0,3) ft (a) What is the torque about the x-axis in ft-lbf? About the y-axis? And the z-axis?
a) If you are applying a force P of magnitude 8.0 N on the crowbar in the direction shown, what is the magnitude and the direction of its moment about point O? and b) If the magnitude of the force F required to pull the nail out is 60 N, determine the magnitude and the direction of its moment about point O. 500 50 mm 40 m 4.80 300 mm
Forces P and Q act on the handles of a wrench. Pr 30° ls 250 P 32 lbf Q 36 lbf 18 in. Note: Only the x-component of each force has a moment about the z-axis. Determine the combined moment of the two forces about the z-axis.
(1) A 2.5-in-diameter steel rod (E=30 Mpsi) is 30 in long and loaded by 20000 lbf normal force. What is the spring rate for tension? What is deformation?
A beam with rectangular section is subjected to a force of P=3800 lb that has an angle of e=30° with the x-axis as shown in the figure. [b=9 in., h = 6 in., ei = 2 in., ez = 1 in., L1 = 40 in., L2 = 27 in.) ML What is the total normal stress at H? O 1241.5 psi O 1142.2 psi 858.9 psi 645.2 psi 1066.6 psi
Knowing that the magnitude of the horizontal force P is 10 kN, determine the stresses at points A and B 30 mm A B 24 mm D P 45 mm 15 mm
If, FA 30 kN and Fg = 45 kN determine the magnitude of the resultant force and specify the location of its point of apPplication (X, y) on the slab If. FA= 30 kN and FB = 45 kN determine the magnitude of the resultant force and specify the location of its point of application (x,y) on the slab 60 KN 120 KN 0.75 m FR125 m 2.5 m 0.75 m 50 KN EN 0.75 m 3 m 0.75 m
2. The setup for an experiment consists of a curved steel beam with a rectangular cross section, subjected to a concentrated force P as shown in the following figure. For the given data determine stress (circumferential) at location C. P 2 in 1 in b 4 in 3 in 4 in L center of curvature 500 lbf TIZ