5) Load Combination and Mohr Circle: The beveled 2 gear is subjected to the loads shown....
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...
Calculate the state of stress at points A and B in the 1 in. diameter shaft for the loads acting on the beveled gear, and show the results on a 3D or volume element. 200 lb NO 8 in. 3 in 75 I *125 lb (Answer: normal = 16.2 ksi; shear= -2.84 ksi; normal = 7.8 ksi; shear= 3.4 ksi)
Problem 2 (8pts) Sketch Mohr circle for the shown element. Use Mohr Circle to determine the normal stresses on and Ot and the shear stress Tnt at this point if they act on the rotated stress element shown. Verify your results (on, i, Tnt) using stress transformation eqns. 1,100 psi 1,750 psi 20° 2,900 psi Illustrate the following on Mohr circle: center of Mohr Circle, reference point A, principle stresses, max in-plane shear stress, orientation of principal stresses Opi and...
3. The propeller shaft of the tugboat is subjected to the compressive force and torque shown. The shaft has an inner diameter of 125 mm and an outer diameter of 175 mm. (20 pts) 0410 KN 2 kNm Determine the following at point A located on the outer surface: avg. TMIP, 8s Principal stresses and Op c Draw Mohr's circle d Draw principal stress and maximum in plane shear stress elements
23 Mohrs circle The state of plane stress at a point is represented by the element shown in Fig. 2.2. Determine maximum shear stresses and the orientation, draw the stress element with the proper orientation. Determine principal stresses and the orientation, draw the stress element with the proper orientation (Note: this question is required to be solved using Mohrs circle.) Mohrs circle The state of plane stress at a point is represented by the element shown in Fig. 2.2. Determine...
A circular tube with an outside diameter of 3.875 in. and a wall thickness of 0.078 in. is subjected to loads Pr = 1300 lb, P, = 1000 lb, and T = 8350 lb in. as shown in the figure. Using a 5.25 in . determine the normal and shear stresses that exist at (a) point H and (b) point K. (a) Enter the normal and shear stresses and point H. Your answers must be consistent with the sign conventions...
Please show all work
#2: For the Mohr Circle diagrams shown below, Diameter is 20 MPa and location of A is defined (ou TG) Mark on these diagrams all locations including angles. Mark all stresses ơxƠy & to. Identify principal stresses 01, σ2A τ8Amax Reconstruct the original FBD Is there stress σ 3? Draw Mohr circles σ1.3 and 02,3 on these diagrams A(12,7ccw) A(20,7ccw) 125:308 Intro to Biomechanics HW: Plane Stress and Strain A(20,0) (10,0) A(-20,7ccw)
#2: For the Mohr...
Given the stress element below: 1. Draw Mohr Circle for the stress element shown below. Use proper scale and draw neatly. 2. Show and label the principal and max shear stress on the circle. 3. On the Mohr circle indicate the angles form the X-axis of Mohr circle to the o axis and Tmax axis. 4. Draw stress elements for initial, principal, maximum shear in their proper orientation. Mark all points on Mohr Circle and corresponding points on stress elements...
Problem 6: Given the stress element below: 1. Draw Mohr Circle for the stress element shown below. Use proper scale and draw neatly. 2. Show and label the principal and max shear stress on the circle. 3. On the Mohr circle indicate the angles form the X-axis of Mohr circle to the oi axis and Tmax axis. 4. Draw stress elements for initial, principal, maximum shear in their proper orientation. Mark all points on Mohr Circle and corresponding points on...
Problem 6: Given the stress element below: 1. Draw Mohr Circle for the stress element shown below. Use proper scale and draw neatly. 2. Show and label the principal and max shear stress on the circle. 3. On the Mohr circle indicate the angles form the X-axis of Mohr circle to the oi axis and Tmax axis. 4. Draw stress elements for initial, principal, maximum shear in their proper orientation. Mark all points on Mohr Circle and corresponding points on...