Determine the resultant couple moment acting on the pipe assembly. Assume (Mc)1= 520 lb⋅ft , (Mc)2= 300 lb⋅ft and (Mc)3= 320 lb⋅ft (Figure 1)Enter the x, y and z components of the resultant couple moment separated by commas.(MC)R = lb⋅ft
Question 9 10 points Save Answer Determine the bending moment 10.43 ft to the right of point A for the beam shown below if P = 751 lb, Q = 957 lb, R = 521 lb, a = 5.16 ft, b = 6.61 ft, and c = 5.85 ft. P 0 R с E D px - y —246z – Question 10 10 points Determine the bending moment 6.82 ft to the right of point B for the beam shown...
Problem 5 a) Determine the net moment (lb-ft) about point D. b) Determine the equivalent force for the load system, indicate its location with respect to point D. 150 Ib/ft 180 lb/ft T 700b 4 ft 70° 3 ft 6 ft 5 ft 2 ft 4 ft
w = 50 lb/ft P = 57 lb L= 7 ft a = 5 ft b = 1 ft ? = 63 deg w lb/ft P lb L ft b ft Ay COLLAPSE IMAGES The horizontal reaction at A. b ENTER The vertical reaction at A b ENTER The vertical reaction at B ENTER Develop the shear and mement equations along the beam. Section 1 Range 3 resremaningon section Currentceam score: t CHECK RANGE
4. The pendulum in Figure 4 consists of a 10 lb sphere of radius 1.0 f and a 5 lb slender rod of length 2.0 ft. Determine: (10 pts) the angularacceleration of the pendulum immediately after the string is cut and the reaction at the pin support O a. b. (10 pts) Using Work-Energy determine the angular velocity of the pendulum as it swings through the vertical position and the reaction at the pin O at that instant. BC 1...
3: Determine the reactions at A and C. (20 pts) w=5 lb/ft W2=10 lb/ft + W2=5 lb/ft 2. 3' А С 4' - 7' - 5'
A 5-lb bar is attached to a 10-b uniform cylinder by a square pin, P, as shown. Knowing that r= 16 in., h= 8 in., 0 = 20°, L = 20 in, and w = 2 rad/s at the instant shown, determine the reactions at Pat this instant assuming that the cylinder rolls without sliding down the incline. The reaction at Pis [ 3.42 lb The moment is 155 ft-lb O. 70.5
For the beam show, calculate: w lb/ft p lb/ft L ft aft bft COLLAPSE IMAGES w = 80 lb/ft p = 40 lb/ft L = 8 ft a = 8 ft b= 6 ft The vertical reaction at A. Іь ENTER 3 tries remaining. 1 point(3) possible The vertical reaction at B. lb ENTER 3 tries remaining. 1 point(3) possible The range for section 1. ) ft ENTER 3 tries remaining. 1 point(3) possible The shear force equation for section...
The bar, WA=100[lb] and L=3[ft], shown in figure is initially in the vertical position. The bar is subjected to a couple moment of M=20 [lb-ft] and a force F=50[l b], which is always perpendicular to the end of bar. Also, the spring is attached to bar at distance L / 2 from point A, and has unstretched length of l0=1.2[ft]. The spring remains in horizontal position throughout the motion due to the roller guide at B. Determine angular velocity of...
Disk A has a weight of 5 lb and disk B has a weight of 17 lb. No slipping occurs between them. (Figure 1) Figure < 1 of 1 a = 4 rad/s2 0.75 ft 0.5 ft Part A Determine the magnitude of the couple moment M which must be applied to disk A to give it an angular acceleration of 4 rad/ Express your answer to three significant figures and include the appropriate units M= Value Units Submit Recuesta...