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Question 2 Use the force method to determine the reactions of the beam shown in Figure...
Using force method , determine the reactions of the supports for the beam shown in Figure ( 5 ) . Then draw shear and bending moment diagrams for the beam El is constant Use conjugate beam method to determine deflections , 6 m 50 KN 200 kN. 9 m - 3 m Fig. (5) BEST WISHES
Q5: Using force method, determine the reactions of the supports for the beam shown in Figure (5). Then draw shear and bending moment diagrams for the beam. EI is constant. Use conjugate beam method to determine deflections. I need it in 30min or 1 h 6 m 50 KN 200 kN.m 22 А В. С 9 m to 3m
SAN4701 OCT/NOV 2017 QUESTION 1 The beam shown in Figure 1 is fixed at support A and support C, support B is a roller support. Use the stiffness matrix method to determine the. Member stiffness matrix 11 1.2 Structure and load matrix (10) 13 Displacement matrix Reactions at the support 14 15. Moments at the fixed supports El is constant along the length of the beam 18 kN 10 kN 20 m 10 m 1 15 m15 m Figure 1...
asap Q5: Using force method, determine the reactions of the supports for the beam shown in Figure (5). Then draw shear and bending moment diagrams for the beam. EI is constant. Use conjugate beam method to determine deflections. 6 m 50 KN 200 kN.m 9 m 3 m Fig. (5)
Slope-Deflection method only please! Step by step Determine all reactions for the beam shown in Figure 6. El is constant. 8 kN-m 2 m 2 m Figure 6 Slope-Deflection Equations 3A + FEM 2EI 20,+0 - M AB AB 2EI 20, +0, 3A + FEM BA M BA Fixed-End Moments (4L - 3a) (6L - Bal +3k') 12 12 12
The beam is shown in the figure below. Use the slope-deflection method. The support Ais pinned, support B is a roller, and support C is fixed. Assume El = 21537 kNm2. The support at B settles by 73 mm (downwards). The segment AB is subjected to a uniformly distributed load w= 11 kN/m. The segment BC is subjected to a point load P = 91 KN. Enter the digit one in the answer box. The link will be provided on...
n: Question 1 Use Moment Distribution method to determine the reactions of the continuous beam shown in Figure 1. Modulus of Elasticity, E, is constant and Moment of Inertia, l, is as shown. The reactions at B, D, E, F are rollers and at Cis a pin. Use five cycles in your solution. 2.1 . 2 kN/m SEN yer Shen 4KN A AC I 21 21 31 31 21 2m 4m 4m 8m 4m Ant 2m 2m Figures
Problem#2: Use the conjugate-beam method and determine the slope just to the left and just to the right of the pin at B. Also, determine the deflection at D. Assume the beam is fixed supported at A, and C is a roller. El is constant. [35 points] Ma 5 kN m moment at point on conjugaie bea ri shear at point on conjngele beam Ay Im im
2. Determine the vertical deflection at point C of the beam shown in Figure 2 with the virtual work method. PE 10 kN 2 kN/m El constant E= 2x 105 MPa 1-1x10 mm Figure 2 2. Determine the vertical deflection at point C of the beam shown in Figure 2 with the virtual work method. PE 10 kN 2 kN/m El constant E= 2x 105 MPa 1-1x10 mm Figure 2
Question 3 Use Moment Area theorems in the beam shown in Figure 3 to determine the following: a-Deflection at C. b-Deflection at D. Use E for modulus of elasticity and I for moment of inertia for the whole beam. Q.3 20KN toler B → С D pin Roller 4m Figure 3 —