Solve for the support forces and draw the shear force and bending force Q and M
L1 = 4m L2 = 5m
a = 1 m b = 1.5 m
p = 4 kN/m F = 12 KN
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Solve for the support forces and draw the shear force and bending force Q and M
2. (70pt) For the system shown below: w bending moment (M) and shear force diagrams (V) using Moment Distribution (Cross) or Slope Deflection Method. 90 kN/m 40 kN 41 80 kN/m 5m 21 2 2m 5m 31 5 8m 4m 4m CH y 12 31 2. (70pt) For the system shown below: w bending moment (M) and shear force diagrams (V) using Moment Distribution (Cross) or Slope Deflection Method. 90 kN/m 40 kN 41 80 kN/m 5m 21 2 2m...
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...
L1(m)=1.5. L2(m)=1.5. w(kN/m)=3. P(kN)=10. M(kNm)= 8. B(mm)= 12. D(mm)=18 Q 4. Draw SFD and BMD for the beam given below and determine the absolute maximum bending stress in the beam if it has a rectangular cross-section of width (B) and depth (D). [7 marks) w kN/m PKN M kNm A B E 4 22 L1 L2 L2
draw axial force, shear force and bending moment diagrams 2m 4'm 30 kN 2m 50 kN 4m A 3 m 1m -3m 1.5m
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
(35 points) (a) Draw the shear and bending moment diagrams for the cantilever beam shown. (b) Specify the maximum positive and negative shear force and bending moment. Take L1 300 mm, L2 -300 mm, q 100 N/m. 2.
Problem 1: (30 points) Draw the shear force (V) and bending moment (M) diagrams for the beam AF given below. (B is a pin support, E is a roller support) Find the support reactions first. You are required to show the magnitude and location of all significant points. You don't have to find the equations defining the shear and moment diagrams unless necessary. However, indicate the order of all curves (e.g. 1" degree, 2nd degree, 3od degree). Ignore the depth...
Draw the shear force and bending moment diagrams for the beams shown 5 kN 3 kN/m 3 m 1.5 m1.5mFig. 4 3 m
#1) (65p.) Draw the Shear Force (V) and Bending Moment (M) diagrams of statically indeterminate beam shown in figure using "Force Method”. The (roller) support at “B” settles 35 mm. The moment of inertia is given by (I) for regions "AB", "BC" and "CD"; however it is equal to (21) for the region “DE”. (“B” is the roller and “E” is the fixed type of support). [The flexural rigidity: EI=40000 kNm] 60 KN 10 kN/m B (21) 1.5 m 1...