Question 1 For the structure shown in Figure 1: (a) Find the reactions at A and...
QUESTION 2 [30 Marks) The framed structure shown in Figure 2 has simple supports (i.e. is free to rotate) at joints A and G. Members AC and GE are vertical, while CE and EH are horizontal. There is an internal moment release at joint C. A uniformly distributed load of 5 kN/m is applied between D and E, and another uniformly distributed load of 4 kN/m is applied between F and G as shown. There is also a horizontal point...
oblem 5 (9 marks) fo thind te reations at the supports 1- Find the reactions at the supports 2- Draw the shear force and bending moment diagrams showing the values at critical sections 3- Locate the section with zero shear and calculate the maximum bending moment 4 kN/m x2-22 几。 22 kN 22 kN 0ヅ 2o ly
500 N/m 2b Figure 1 (a) Determine the reactions at the supports at A and B. 4 Marks) Determine the equations defining the shear force and bending moment at any (6 Marks) Draw the shear force and bending moment diagrams for the beam, showing the (6 Marks) (b) point between points A and C (c) values at all points between points A and B. (d) Find the dimensions of the cross-section of the beam if the allowable bending stress for...
Use the Slope-Deflection Method to analyse the structure of Figure 1 and draw the shear force, axial force, and bending moment diagrams 4 m (1.5 EI) 20 KN/m 10 KN/m 50 kN.m Figure 1 Use the Slope-Deflection Method to analyse the structure of Figure 1 and draw the shear force, axial force, and bending moment diagrams 4 m (1.5 EI) 20 KN/m 10 KN/m 50 kN.m Figure 1
Problem 1 For the structure shown in Figure 1, complete the following: A. Calculate the reactions B. Draw axial, shear, and bending-moment diagrams C. Calculate the internal member forces (P,V, M) at r = 62 in. w = 0.75 k/ft 3 it 15 ft - Figure 1
For the beam shown in Fig.3, q1= 10kN/m, Mo=15kN.m. a) Find all support reactions. b) Find the expressions for the shear force V and bending moment M. c) Draw the shear-force and bending-moment diagrams. Note that Mo acts at C, and dV/dx = -q, dM/dx = V Calculate (a) the maximum shear stress in each segment; (b) the angles of twist (in d at the mid-span of the larger segment. Given: r-Trllp Ti 91 T: Fig. 2 Fig. 3 q,-10...
For the beam shown in Fig.3, q1= 10kN/m, Mo=15kN.m. a) Find all support reactions. b) Find the expressions for the shear force V and bending moment M. c) Draw the shear-force and bending-moment diagrams. Note that Mo acts at C, and dV/dx = -q, dM/dx = V Calculate (a) the maximum shear stress in each segment; (b) the angles of twist (in d at the mid-span of the larger segment. Given: r-Trllp Ti 91 T: Fig. 2 Fig. 3 q,-10...
Analyse the 3 span beam shown in the Figure below by the method of moment distribution and draw the bending moment and shear force diagrams. You need not show the maximum values of the bending moments in the spans. El can be assumed to be a constant across all the members. 24 kN/m 36 kN/m X2 kN/m 8m X3 m XIm X1 X2 X3 6m 38 kN/m 8m
Question AT For the beam and loading shown in Figure Al: - a. Determine the support reactions b. Draw the shear and bending moment diagrams c. Determine the maximum absolute value of shear force and bending moment. 30 kN/m 60 kN C D K-2m-imta2m- Figure A1
solution step by step please Determine the support reactions and draw the shear and bending moment diagrams for the structure shown in Figure 1 by using the method of consistent deformations. X1 kN-I D 6 m x, kN/m 4m- 1-5 7 kN.m 4m Figure 1 X2= 606 kN/m