Problem 8 GIVEN 2620.6 ins E-29x 10 psi L 30 ft FIND: Deflection at center of beam.
Problem 8 GIVEN 2620.6 ins E-29x 10 psi L 30 ft FIND: Deflection at center of beam.
w-3kif t-26206 int E#29 x 102 psi L 30 ft FIND: Deflection at center of beam.
Part III 1. BEAM ANALYSIS (20pts) 6kips/ft E = 25 x 10° psi , l-200ìn4 1) Express the distributed weight, w(x). 2) Write the boundary conditions. 3) Solve the deflection curve. 4) Find the maximum moment. 5) Find the maximum deflection. お
Find the slope and deflection curves of the beam E=30e6 psi
3) For the beam and loading shown in figure, E = 30 x 106 psi, 7 = 200 in4. Determine (a) the reaction force at A and (b) the deflection at C. 8 kip 3 ft 2 kip/ft A С B -8 ft
3) For the beam and loading shown in figure, E = 30 x 106 psi, 7 = 200 inº. Determine (a) the reaction force at A and (b) the deflection at C. 8 kip 3 ft 2 kip/ft A С B -8 ft-
3) For the beam and loading shown in figure, E = 30 x 106 psi, I = 200 int. Determine (a) the reaction force at A and (b) the deflection at C. 3 ft 8 kip 2 kip/ft IA с в | -8 ft
3) For the beam and loading shown in figure, E = 30 x 106 psi, Ī = 200 int. Determine (a) the reaction force at A and (b) the deflection at C. 8 kip 3 ft 2 kip/ft litum A С B -8 ft-
3) For the beam and loading shown in figure, E = 30 x 106 psi, i = 200 inº. Determine (a) the reaction force at A and (b) the deflection at C. 3 ft 8 kip 2 kip/ft IA с B -8 ft
3) For the beam and loading shown in figure, E = 30 x 106 psi, I = 200 in. Determine (a) the reaction force at A and (b) the deflection at C. 3 ft 8 kip 2 kipit IA с В | -8 ft