Handout Problem #2 FIND GIVEN: The bolster, or main supporting girder of a. a truck body,...
Please show work. Thank you.
FIND: a. The normal stress at point A due to GIVEN: The bolster, or main supporting girder of a truck body, is subjected to the uniform distributed load shown. bending b. The normal stress at point B due to 15 kip/tt bending 8 ft 12 ft 0.75 in. 6 in 0.5 in 2 in 0.75 in
The 10.5-k truck exerts the wheel reactions shown on the deck of
a girder bridge. Assume the truck travels in either
direction along the center of the deck, and therefore
transfers half of the load shown in each of the two side
girders. Assume the splice is a fixed connection and, like the
girder, can support both shear and bending moment. Suppose that
F1 = 7 k and F2 = 3.5 k . Follow the sign
convention.
a) Determine the...
10.5 in.al --3 in 10.5 in. B Problem 2 - Bending Stress (25 pts) Determine the maximum tensile and compressive bending stress in the beam if it is subjected to a moment of M = 6 kip-ft. 0.5 in 3 in M 10 in D 10.5 in.
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
PROBLEM 3 (25%) For the problem shown below, the free body diagram (FBD) is superimposed showing the reactions forces (the reaction forces are given). Ax = 0; Ay = 9 kip, Cy = 33 kip 1. Draw the shear force diagram. Identify values at kink points (no equations required). 2. Draw the bending moment diagram. Identify values at kink points (no equations required). 3. Determine the value of the maximum positive moment in the beam (Mmax). 4. Compute the vertical...
If the beam is subjected to an internal bending moment of 36.8 kip-ft, determine the normal stress (in ksi) due to bending developed at point B on the cross-section. Note: Your answer should be in requested units and be to 2 decimal places. 12" M 1.5" 1.5" C B 6" 6
326 СНАРТER 6 BENDING EXAMPLE 6.18 The reinforced concrete beam has the cross-sectional area shown in Fig. 6-39a. If it is subjected to a bending moment of M = 60 kip ft determine the normal stress in each of the steel reinforcing rods and the maximum normal stress in the concrete. Take Est = 29(10) ksi and Econc = 3.6(103) ksi SOLUTION Since the beam is made of concrete, in the following analysis we will neglect its strength in supporting...
Can you help me solve this distributed load problem with shear
force and moment diagrams?
Problem Statement: A beam ABC is simply supported and carries triangle distributed load (see figurc). And there is a moment acting on A point. a) Draw the shear force and bending moment diagrams b) Calculate the maximum bending normal stress. (Assume circular cross section with radius 0.1 ft) 180 lb/ft 300 1b-ft 6.0 ft 70 ft
Problem 2: Calculation of Support Reactions One frame of a single-story gable-roofed structure is shown below with distributed loads due to wind. The supports at A and E are fixed, and hinges are present at joints B, C, and D. Determine the support reactions at A and E considering the wind load shown 1.5 kip/ft 1.5 kip/ft 9 ft 12 ft 2.8 kip/ftB 1.5 kip/ft 12 ft -30 ft
Problem 1 The continuous beam and post system shown below supports a 10 kip vertical load and a 5 kip horizontal load. Determine the combined normal stress at point "A" and point "B" State if the points are in tension or compression 21 4' -FINED EASE 12"
Problem 1 The continuous beam and post system shown below supports a 10 kip vertical load and a 5 kip horizontal load. Determine the combined normal stress at point "A" and point "B"...