Determine the Maximum load P that can be applied to the beam shown below if the...
points) The cross-section of the beam below is the same as in questions 3. Given this cros ion determine the following: a. (5 points) Find the normal stress acting at point A if M900 f"lb b. (5 points) Find the maximum compression stress acting on the c. (5 points) Find the maximum tension stress acting on the beami d. (5 points) If the maximum allowable stress is 5 ksi in either tension or compression determine the maximum bending moment M...
The simply supported 12 foot long wood beam shown has a constant load applied of 125 lbs/foot. The cross section of the beam (C by D in the diagram) has dimensions of C = 7.5 inches and D = 11.5 inches. What is the average force applied over a section one inch thick at the top surface of the beam in Ibs? Give your answer to three significant digits and do not type in units or signs. Not looking for...
Determine the maximum ram force P that can be applied to the clamp at D if the allowable normal stress in the clamp is 180 MPa for both tension and compression. The clamp has a T-shape cross section shown through a-a. Ans: 9.08 kN
Problem 1. Consider the beam cross sections shown in figures (a) and (b). If the material comprising beams with these cross sections has allowable bending stress Allow = 25000 psi, either in tension or compression, determine the maximum bending moment each beam can carry. Assume elastic behavior. Take D=6 in. Problem 2. The beam shown has the cross-section indicated. Indicate the location along the beam where the maximum and minimum normal stresses occur in the beam. Determine the values of...
A 2x10 wood beam (actual dimensions 38.1 mm x 235 mm) is being used to support the load shown below. What is the maximum value of P so that the maximum allowable stresses are not exceeded?
Problem 4 Determine the maximum force P that can be applied on the system if the maximum allowable tension and compression in each bar are respectively 4 kN and 3 kN. d/2 d/2
You are to use a circular rod as a beam. It’s span is 20 feet, and assume a diameter of 5 inches. The beam supports a distributed load of 2560 lbs/ft. Determine the bending moment to the nearest thousand pounds per foot (or kips per foot). Also determine the bending stress to the nearest ksi (thousands of pounds per square inch).
CA) 1 in 2 in Fig. 1a Fig. 1b Cross-section Problem. 1. A simply supported beam of length L = 10 ft has a rectangular cross-section, with a height of 2 inches and a width of 1 inch. The bending stresses should not exceed 50 ksi. a) What is the largest allowable point load P that can be applied at the mid-span (i.e. in the middle of the beam)? b) What is the largest allowable constant distributed load that can...
4kN 150 mm 2kN Problem 1, subjected to two concentrated forces and has a as shown in the figures The cantilever beam, (fixed at A)s 0 mm30 mm -30 mm (a) Determine the maximum shear stress on the section (b) Determine the maximum bending stress in compression and in tension (c) If the allowable bending stress (for tension and compression) is ơao.-6 MPa, calculate the new minimum required section modulus. 4kN 150 mm 2kN Problem 1, subjected to two concentrated...
(Q2) For the shown beam, a uniformly distributed load is applied across the beam length. The beam cross section is symmetrical. The beam length and cross-sectional dimensions are shown in figure. 40 mm B С 300 mm 10 N/m N A 40 mm 300 mm 40 mm 500 mm 1- Plot the Shear Force Distribution (with values) 2- Plot the Bending Moment Distribution (with values) 3. Determine the maximum Moment value and indicate the most critical section 4- Calculate the...