Solve for reaction forces . Simply Supported beam with an extra roller support. Material: Aluminum Alloy...
5) (20 pts) For the simply supported beam shown, find the appropriate W-section to support the loads. L- 15 ft, w 400 lb/ft, P 4000 lb, Ơallow = 36,000 lb/in2 L/2 L/2 wL/2 wL/2 Beam size- 5) (20 pts) For the simply supported beam shown, find the appropriate W-section to support the loads. L- 15 ft, w 400 lb/ft, P 4000 lb, Ơallow = 36,000 lb/in2 L/2 L/2 wL/2 wL/2 Beam size-
Point loads are 1.2 kN and 1.5 kN respectively 5. Fabricated box beam The simply supported beam is loaded by two forces as shown below. The beam is constructed from four 24 mm thick boards which are nailed together. Determine the maximum distance s between nails if each nail can carry a force of Fallowable = 275N. 1.5 KN 1.2 KN 24 mm 177 mm 24 mm 3.0 m 2.5 m 1.0 m 24 mm 24 mm 280 mm 5....
the axial load ? ldtlcs & Strength Material r is supported by the pin-connected rod CB that has a cross-sectional 1. The rigid ba area of 16 mm2 and is made from 6061-T6 aluminum. Determine the ax the rod CB and elongation rod CB. (E 68.9 GPa, v 0.35) ial stress at 300 N m 1.5 m 0) ldtlcs & Strength Material r is supported by the pin-connected rod CB that has a cross-sectional 1. The rigid ba area of...
HW12: Problem 2 Previous Problem Problem List Next Problem (16 points) Difficulty (375) A simply-supported beam is subjected to a coupled moment C = 480 ft-lb and the forces Fi = 300 lb and F2 = 780 lb. The dimensions of the beam are: a = 6.6 ft b= 3.7 ft c= 2.8 ft d = 3.3 ft Determine the shearing force and bending moment at the following locations. C d At x1 = 6.2 ft (from the left support)...
A simply supported beam has a cross-section that is formed using of Steel and Aluminum as shown. Find the normal stress at point "b" at the point of maximum moment for the loading shown. All the dimensions are in inches. 50 lb/in 240 Steel Es=29000 ksi Aluminum EA-10000 ksi 4 1
(16 points) Difficulty (3/5) A simply-supported beam is subjected to a coupled moment C = 480 ft-lb and the forces F1 = 530 lb and F2 = 720 lb. The dimensions of the beam are: a = 7.9 ft b = 4.7 ft C = 4.6 ft d = 4.6 ft Determine the shearing force and bending moment at the following locations. Lub c d At 21 = 4.9 ft (from the left support) V.1 = M1 = At 12...
A simply supported beam loaded by two forces is shown in the figure. Select a pair of structural steel channels mounted back to back to support the loads in such a way that the deflection at midspan will not exceed 1/2 in and the maximum stress will not exceed 15 kpsi. Use superposition. In the figure, F1 = 450 lbf and F2 = 300 lbf. Use Table A-7 to select the smallest Imperial units channel that meets the requirements, where...
Question 1 (6.7 points) AW12 x 50 steel beam is used as a simply supported beam on span of 24 feet. The beam supports a uniformly distributed load of 1000 lb/ft. Calculate the maximum bending stress. a) 9,560 psi Ob) 11,280 psi Oc) 13,460 psi d) none of the above Question 2 (6.7 points) Determine the number of 2 x 12's that need to be nailed together to build a beam that would support a uniform load of 500 lb/ft...
For the beam shown, what are the support reaction forces? Please report in units of kip in 2 sig figs. Question 2 1/ 3 pts 4 kip 9 kip M-23 kip ft 9 in 5 ft 3 ft 3ft 2ft 6 in For the beam above, what are the support reaction forces? Please report your answers in the units of kips' and to 2 significant digits Y-direction for roller? 1 X-direction for the pinned support (triangle)0 Y-direction for the pinned...
04 m 8 KN 2. A simply supported beam is shown below. a. b. c. Draw a proper FBD of the beam showing all the known and unknown forces acting on it. Determine the support reactions at A and B. Draw the shear (V) and bending moment (M) diagrams for the beam. 2500 lb 500 Ib/it 3 ft -3 ft 3 ft 3. Draw a proper FBD of member ABC showing all the known and unknown forces acting Determine the...