Use the virtual work method to determine the slope and deflection at point D of the beam (Quie
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Q: use the virtual work method to determine the deflection at point C of the beam shown
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Q: Determine the slope and deflection at point B of the beam shown by the moment-area method.
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Q: Use the virtual work method to determine the slope and deflection at point D of the beam.
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- Use virtual work method to determin the deflection and slope at point B. EI= constant, E= 200 gpa, I=1200x10^6Compute the vertical and horizontal deflections of B by the virtual work method. Given E=200GPa and I=108mm4 .Find the slope and deflection at point D using Conjugate beam method E= 12GPA Square dimensions= 300mm both sides I at AB= 2 I at BC= 1 I at CD= 3
- Determine the slope and deflection at point C of the steel beam using virtual work method. E = 200 GPa & I = 250x106 mm4Compute the vertical and horizontal deflections of B by the virtual work method. GivenE=200GPa and I=108mm4 .Compute the vertical deflection of point C for the cantilever beam Given I=500×106 mm4, E=20 GPa. (Use the Complementary VirtualWork Method).
- Determine the deflection at point C. Use the following parameters: P = 40 kips, w = 3.7 kips/ft, E = 29000 ksi, I = 2700 in4 Answer: -0.664Use the moment-area method to determine the slope and deflection at point D of the beam shown.Compute the horizontal & vertical components of the deflection of point C for the frame. Given I=240×106 mm4, E=200 GPa. (Use the Complementary Virtual Work Method).
- Using Moment-Area Method, determine the slope at A and B and the deflection at point B of the loaded beam shown. Use E = 150 GPa and I = 110x106 mm4.Using virtual work method, E = 29 x 10^3 ksi, I = 500 in^4. Determine the deflection and slope at point B of the cantilever beam.3. Using moment-area method, compute the slope and deflection at the free end of the of the cantilever beam shown. E = 29,000 ksi , I = 760 in⁴