short answer please . Structural Mechanics Quiz No.7 Chapter 12 For the beam shown below having...
For the beam and loading shown in the figure, integrate the load distribution to determine the equation of the elastic curve for the beam, and the maximum deflection for the beam. Assume that EI is constant for the beam. Assume EI=25000 kN⋅m2, L=2.4 m, and w0=61 kN/m. (a) Use your equation for the elastic curve to determine the deflection at x=1.5 m. Enter a negative value if the deflection is downward, or a positive value if it is upward. (b)...
For the steel beam shown in the figure, compute the slope at A and C. Also, determine the location and value of the maximum deflection. If the maximum deflection is not to exceed 0.6 in, what is the minimum required value of I? El is constant and E= 29000 ksi We were unable to transcribe this imageCompute the slope of the elastic curve at B and C and the deflection at C for the cantilever beam shown in the figure....
9. For the beam loaded and supported as shown in Figure (see Week 4), use the integration method to determine (a) The equation of the elastic curve using the xi and x2 coordinates (b) The slope at A. (c) The deflection at C Take E 200 GPa and1- 4 x 108 mm4 30 kN 20 kNm 4 m 2 m 9. For the beam loaded and supported as shown in Figure (see Week 4), use the integration method to determine...
Problem 8 (Integration) For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for segment AB of the beam, (b) the deflection midway between the two supports, (c) the slope at A, and (d) the slope at B. Assume that El is constant for the beam. - X A * 12*
Structural Analysis: Homewo Problem 3.2-10: For the given structures with a constant El and loadings; a) Draw SFD and BMD b) Determine the equation of the elastic curve, y(x) using the integration method c) Determine the slope angle and deflection shown on the right Problem 3.9 60 kN-m Internal hinge Left and right side of Op and Δ 3 m 3 m 3 m Problem 3.10: 10 k 0p and Ac Internal hinge 10 ft 10 ft 10 ft
Q2: (12-4) Determine the equation of the elastic curve for the beam using the x coordinate that is valid for osx< L/2. Specify the slope at A and the beam's maximum deflection. El is constant. Q2: (12-4) Determine the equation of the elastic curve for the beam using the x coordinate that is valid for osx
Midway answer provided by instructor to make sure answer is correct 4) For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam AB, (b) the deflection at the free end, and (c) the slope at the free end. Assume that El is constant for the beam. Wo 0
Structural Analysis For the load shown in the figure, determine A) The equation of the elastic curve for the cantilever AB B) The deflection at the free end C) The slope at the free end. PS: Determine the equations of slope and elastic curve by the DOUBLE INTEGRATION METHOD PS: Calculate the slopes and deflections requested in each beam by the MOMENTAL AREA METHOD.
3) For the steel beam shown in figure, E = 200 GPa, 7 = 100 x 106 mm4, L = 5 m and w = 2 kN/m. Determine (a) the reaction force and reaction moment at A and (b) the deflection at C (30 pts) w/2 K L/2— L/2– Beam and Loading Elastic Curve Maximum Deflection Slope at End Equation of Elastic Curve y=- *- 4Lx' + 613x4) For x }: PL 48ET 48E7(42 - 313) For x<a For a...
Question 26: Draw M diagram for the beam and loading shown in figure 34, USE slope- deflection equations. El is constant. Given: L1= 5m L2= 1m L3= 5m F= 10 KN W= 10 KN/m M=17 KN.m W +11/2+11/2 2/2 315/2