Problem.2 Clearly indicate the magnitude and direction of all support reactions. 50 kN/m 25 kN/m OI...
12 kN 3 kN/m Fixed support B A Roller support 3 m m A beam is fixed at A and supported by a roller at B. The beam has E = 100 GPa and I 1.0 x 10-5 m4. For the loading shown, complete the following: 1. Calculate the magnitude and direction of all reactions at A. 2. Calculate the magnitude and direction of all reactions at B. 3. Calculate the magnitude and direction of the rotation at B.
please answer correctly!! 12 KN 3 kN/m Fixed support B А Roller support 3 m 3 m A beam is fixed at A and supported by a roller at B. The beam has E = 100 GPa and I 1.0 x 10-5 m4. For the loading shown, complete the following: 1. Calculate the magnitude and direction of all reactions at A. 2. Calculate the magnitude and direction of all reactions at B. 3. Calculate the magnitude and direction of the...
Problem 2: a. For the plane truss shown in Figure 2, determine the nodal displacements, the element forces and stresses, and the support reactions. All elements have E-70 GPa and A-25 cm 100 kN 50 kN 50 kN 4 4 6 Figure 2. Plane Truss Problem 2: a. For the plane truss shown in Figure 2, determine the nodal displacements, the element forces and stresses, and the support reactions. All elements have E-70 GPa and A-25 cm 100 kN 50...
2.4 kN/m Problem No. 1 (25%): 2 kN/m y = kx 3.0 KN 300 For the beam and loading shown, determine (a) the magnitude and location of the resultant of the distributed load (b) the reactions at the beam supports (Fig. 1). B A 0.6 m 1.2 m - 0.8 m 2.4 m —- - 10 ml Fig. 1
The magnitude of the point moment p is 12 kN*m. The magnitude of the uniformly distributed load q is 12 kN/m. The maximum magnitude of the variably distributed load r is 13 kN/m. The magnitude of the variably distributed load over support E is 0 kN/m. The magnitude of the point load s is 18 kN. 1.What are the reactions at B and E? 2. Determine the bending moment equations for all segments of the beam if the datum used...
Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in cable CB. For RISA-2D, consider the cable as a member but release both ends. 2 k/ft8 kips 10 ft 6 ft 4 ft
Problem No. 1: For the truss shown a) Determine the support reactions at A and G b) Using the methods of joints, determine the force in all members and indicate if the member is in tension (T) or compression (C). Assume all connections are pins 100 KN 4 m 4 m B 4 m H .. m
Ax, Ay, Dx, Dy, Md? Determine the magnitude and direction of all support reactions for the pin-jointed structure shown below. 450 lb
Please write clearly 1. FRAME Determine the support reactions at A (fixed) and at C (rocker). (Hint: You will need 2 FBDs to solve this problem.) 10 kN 4kN/m \C A B 2 n 2m 2m
15 KN 3 kNm ITB A 2 m am E=100GPa, I=1 x 10^-5 m^4 Calculate Magnitude and direction of all of the reactions at points A and B Calculate direction and magnitude of the rotation at B.