use moment area method. displacement at b slope at c D 10 kip 31 A 6...
Problem 8: Using the Moment Area method find the slope at B and the displacement at C 3k C Inc 200 in. IAn500 in. 5 ft 10 ft
Determine the slope at B and displacement at D. Er is constant. Use the moment-area theorems, 3 m 3m
5-Use moment area method. Determine the vertical displacement of point D. Use moment area method. A is fixed, B is a hinge and C is a roller. Note that El is not constant. 2KN 2 KN/m EI EI D 2EI 1m 5-Use moment area method. Determine the vertical displacement of point D. Use moment area method. A is fixed, B is a hinge and C is a roller. Note that El is not constant. 2KN 2 KN/m EI EI D...
Determine the slope and the displacement at C. El is constant. Use the moment-area theorems. Prob. 7-28 6 k 12 k.ft 4 ft 6 ft
Use the moment-area method to determine the slope and deflection at point D of the beam shown.
Use Moment Area to find the slope at B and the deflection at D for the following frame. The frame has a constant EI. 3 k/ft 6 k 14' 18' 4 6 k 12' 27 k
*7-32. Determine the slope at B and the displacement at C El is constant. Use the moment-area theorems. 12 k 6 k th 9ft9 ft Prob. 7-32
Using both equation method and area method, draw the shear and bending moment diagrams. 3 kip 1.5 kip/fl E C 6 ft 4 ft 4 ft
5 kip 1.5 kip/ft Problem 1 (25 points) Determine the slope at B and the displacement at C. The member is an A-36 steel structural tee for which I = 76.8 in 3ft-
Determine the slope to the left and right of B and the displacement at D. El is constant. Use the moment-area theorems Prob. 7-36 60 kN m