Draw the indicated influence lines,
77% Influence Lines for: RA RC MA VA VB Mc VC, RHS 5 m m
Q.6 (a) For the overhanging beam ABC is shown in Fig.6 use Influence Lines to compute the bending moment and shear force at X due to a uniformly distributed load of 25 kN/m intensity and 4m long parked as indicated. 25 kN/m 4m 6m 4m Fig.
Draw the influence lines for Ay, Dy, Fy, VC, and VE, MD, ME and MB. step by step A в C E >e ><- 4 4 6' 4'
The beam shown in (Figure 1) weighs 240 lb/ft. Find the
magnitude of the internal normal force NC, the internal
shear force VC, and the internal moment
MC.
Find (Vc)x=,(Vc)y=,(Vc)z=,
(Mc)x=,(Mc)y=, (Mc)z=,
PartA Determine the z component of force at point C in the pipe assembly. Neglect the weight of the pipe. The load acting at (0, 3.5 ft, 3 ft) is Fi -26i-14 k) lb and M (-41 k) lb.ft and at point (0,3.5 ft, 0) F2 -81 i) Ib Figure 1) Express your answer to three significant figures and include the appropriate units. Ve)Value Units Submit Part B Figure 1 of 1> Determine the y component...
ид С2 at (5) а ду ә (6) д 7 Әr! д ay' а д! а Y де (7) дz а at — и а д" (8) Hint: you need to use the chain rule. 3) (2 marks) Write down analogous expression to equations (5)-(8), assuming a Galilean transformation: x' = x – ut, y' = y, z' = z and t' = t.
L K Q VC FC TC AVC AFC ATC MC 0 5 0 0 5 5 1 5 2 2 5 7 1.00 2.50 3.50 1.00 2 5 6 4 5 9 0.67 0.83 1.50 0.50 3 5 12 6 5 11 0.50 0.42 0.92 0.33 4 5 19 8 5 13 0.42 0.26 0.68 0.29 5 5 25 10 5 15 0.40 0.20 0.60 0.33 6 5 28 12 5 17 0.43 0.18 0.61 0.67 7 5 29 14...
ctor6 Find vc i, and the energy stored in the ca and inductor in the circuit of Fig. 6 conditions. pacitor der de .69 un 2Ω ЗА 4 22 0.5 H 5 92 Figure 6.69 For Prob. 6.46
Chapter 6- Influence Lines Draw the influence line for the shear and moment at C for the beam shown below. The support at A is a roller and the support at B is a pin. The beam is subjected to a uniform load of 5 kip/ft over its entire length and a single 12 kip concentrated force. Deternmine the maximum values of Ve and Mc and the position of the applied concentrated force for each condition. Answer: VC: +0.5 at...
Find Ax, Ay, Cx, Cy
Revie Consider the beam shown in (Figure 1). Suppose that w 20 kN/m. 1 of 1 Figure 60° 6 m