2. Determine the forces P and Q in the force system shown in the figure below....
determine the force P for equilibrium of the system shown in Figure P5-61 5-61.Determine the force Pfor equilibrium of the system shown in Figure P5–61. 20 KN A E 1 m 1 m 4 m G H 2m 11m11 m 2 m FIGURE P5-61
2. Compute the forces in Members AC and BC for the system shown in Figure 2-1 Consider a as 51°. (20 points) 30° 20° 300 lb Figure 2-1: Force applied to two cables
Problem 3.5 Determine the forces in all members of the below structure using the method of joints. Calculate the support reactions as needed and indicate the zero force members if any. 600 lb 450 lb YE 30° 3 ft 3 ft Problem 3.5 Determine the forces in all members of the below structure using the method of joints. Calculate the support reactions as needed and indicate the zero force members if any. 600 lb 450 lb YE 30° 3 ft...
Q.3)Two forces P and Qx are applied at point C of a steel bar as shown in figure below. The strains measured by three strain gauges attached on the outer surface at point A are: ει--120μ. ε,-+480μ. and E3 = +400μ Determine the magnitudes of forces P and Qx. For Steel, assume E 29 x 106 psi and v 0.3 1.5" 24" 40 5" Q.3)Two forces P and Qx are applied at point C of a steel bar as shown...
Q/1 For the force system shown below and by using both graphical and algebra solutions, determine: (a) The required tension force F3, if the resultant (R) of the three forces directed as shown below. (b) The corresponding magnitude of the resultant (R). F,? 65 35° 250 R F-75 kN W=5 kg
Determine the moment of the couple for the system shown below. The forces shown lie in the x-y plane. d. None of the above a. -2400k^ ft-lb c. 2400k^ ft-lb b. -4800k^ ft-lb
For the frame and loading P 330 lb shown, determine the internal forces (axial force, shearing force, and bending moment) at Point Jof the structure indicated. (Round the final answer to the nearest whole number.) 14 2 in. 4 in. 4in 2 1 in. 2 in The axial force F is The shear force V is The bending moment M is lb. lb-in. acting in the (Click to select) direction.
The forces shown in the figure below are applied to an object. Find the third force that will produce a zero resultant force. (Take the x-axis along the horizontal direction, and F = 55.1 lb.)
2-P A tugboat pulls on cable AB with a force of 50 kN. Determine the forces developed in cables BC and BD necessary for equilibrium. (Note: All three cables lie in the same plane.) 址 -30° 20° 50 kN
help pls Statics - ENG GEN 131 4. For the figure below, determine (a) the force P in cartesian form that keeps the concurrent (act at the same point) force system in equilibrium, i.e. find the resultant force that should balance everything out such that the sum of all the forces are equal to 0. Then (a) calculate the magnitude and direction cosine angles (Q.B.V) of this force P required to keep the concurrent force system in equilibrium. (-1.5 m,...