Calculate the state of stress at points A and B in the 1 in. diameter shaft...
5) Load Combination and Mohr Circle: The beveled 2 gear is subjected to the loads shown. Determine the maximum normal (principal) stresses and maximum shear stress at point A. The shaft has a diameter of 1 inch and is fixed to the wall at C (20 points) 200 lb 8 in. in. 75 lb 125 lb
Problem 8.42 The beveled gear is subjected to the loads shown in the figure below (Figure 1). The shaft has a diameter of 0.5 in, and is fixed to the wall at C. Part A Determine the normal stress acting at point A. Express your answer to three significant figures and include appropriate units. ЦА ? (CA), - Value Units Submit Request Answer Part B Determine the shear stress acting along the yr plane at point A. Express your answer...
Figure 2: The bar has a diameter of 40 mm. Determine the state of stress at point B and show the results on a differential volume element located at this point Determine the shear stress (T.xy) B? 16.2 MPa O 0.509 MPa -0.679 (MPa Figure 2 200 mm Y 200 mm AB 1200 N* 1200 N 800 N The bar has a diameter of 40 mm. Determine the state of stress at point B and show the results on a...
The state of stress at a point is shown on the element. Determine (a) the stress components acting on the inclined plane AB, (b) the principal stresses, and (c) the maximum in-plane shear stress and average normal stress at the point. Specify the orientation of the element in each case. Sketch the results on each element. 2 ksi 3 ksi 30° 4 ksi
The state of stress at a point is shown on the element. Determine (a) the stress components acting on the inclined plane AB, (b) the principal stresses, and (c) the maximum in-plane shear stress and average normal stress at the point. Specify the orientation of the element in each case. Sketch the results on each element. 2 ksi 3 ksi 30° 4 ksi
Problem 3 (17 points) The two static forces are applied to a circular 1-in diameter shaft as shown. The shaft is made from 1045 CD Steel with a yield strength of 77 ksi. 8 in 1000 lbf 1 in dia. Cross section at the wall 800 lbf (2) a) Identify the location of the most critical stress element. (A. E, F or D?) (10) b) Determine the stresses and draw the stresses on the critical element identified in part a)....
Please draw each point
PROBLEM 4 (25%) Given the following state of stress, 20 ksi 16 ksi 8 ksi Given the following state of stress, using the Mohr's circle: Determine the principal normal stresses and show their sense on a properly oriented element, “PRINCIPAL STRESS”. Show stress invariance with the original stress condition. Find the maximum shear stress with their associate normal stresses and show the results on a properly oriented element, "MAX SHEAR STRESS”. Show stress invariance with the...
*8-56. The 1-in.-diameter rod is subjected to the loads shown. Determine the state of stress at point B, and show the results on a differential volume element located at this point.
Question 2 The shaft shown below is rotating at 650 rpm, and it receives 7.5 hp through a flexible coupling. The power is delivered to an adjacent shaft through a single helical gear B having a normal pressure angle of 20 degrees and a helix angle of 15 degrees. The pitch diameter for the gear is 4.141 inches (De) and the Tangential (Wu), radial (W) and axial/thrust (W) are shown below on the drawing. The shaft is to be made...
5. The 0.875-in-diameter solid steel shaft shown below is simply supported with bearings at the ends. Loads are applied to arms welded to the shaft at B. Torque is provided through a flexible coupling at A. Determine the bending stress, shear stress and maximum principle stress just to the left and right of point B. por pe 1500 16 500 lb —12” — " B/G 16" 200 lb