Problem No. 5 (Figure 5) Using Mohr's circle determine the following: (i) Maximum principle stresses (σ1...
Using Mohr's circle determine for the below differential element: a) the principal stresses and the plan on which they act. Show the stresses on a properly oriented differential element. Label all stresses. b) the maximum shear stress and the plan on which they act. Show the stresses on a properly oriented differential element. Label all stresses. c) the stresses on a differential element 40 degrees clockwise from the original element. Show the stresses on a properly oriented differential element. Label...
For the stress elements (shown in figures la and lb). Using Mohr's circle determine: a) The principal stresses σ1 and σ2 and the maximum in-plane shear stress-max and the normal stress on that plane, and sketch the orientation of the elements relative to the x-axis showing magnitude and direction of the angles.
The figure shows a gondola lift with the dimensions given for its supporting arm. Determine the maximum normal stress developed in section a-a. Calculate the principal stresses σ1, σ2-0s and τabs-max at the point of maximum stress Solve using Mohr's circle 300MM The figure shows a gondola lift with the dimensions given for its supporting arm. Determine the maximum normal stress developed in section a-a. Calculate the principal stresses σ1, σ2-0s and τabs-max at the point of maximum stress Solve...
For the stress state shown, use Mohr's Circle to determine the following: (a) Principal stresses σ1 and σ2, the associated shear stress τx'y', and the element orientation θp. Clearly indicate magnitude and direction. (b) Maximum in-plane shear stress τmax,in plane , the associated normal stresses σx' and σy', and the element orientation θs. Clearly indicate magnitude and direction. (c) Absolute maximum shear stress τmax,absolute · Show all work using Mohr's Circle. If your drawings do not indicate that you used Mohr's Circle appropriately, you...
Q5: 10-56 Determine the principal stresses and the maximum shear stress using Mohr's circle. The following data sets give the stresses on the initial stress element (ox=300 MPa; Oy=-100 MPa; Txy=80MPa CW). Perform the following operations: (a) Draw the complete Mohr's circle, labeling critical points including 01, 02, Tmax, and Oavg. (b) On Mohr's circle, indicate which line represents the x-axis on the initial stress element. (c) On Mohr's circle, indicate the angles from the line representing the x-axis to...
20B Problem 2 (20 pts): Mohr's Circle Use the Mohr circle shown on the right to answer the questions below. (a) Determine the state of stress (0) Tv) [ksi] depicted in the drawing of Mohr's circle. (b) Find the principle stresses (1, 0) [ksi) and the respective angles of principle stress (pl. 0p). (c) Calculate the maximum shear stress (Tmax) [ksi) and the angles of maximum shear stress (0...0.2). -20 20 40 60 T2 0 1 20p -20 A
Problem 2 (20 pts): Mohr's Circle Use the Mohr circle shown on the right to answer the questions below. 20 B (a) Determine the state of stress (Ox, Oy, Txy) [ksi] depicted in the drawing of Mohr's circle. (b) Find the principle stresses (01, 02) [ksi] and the respective angles of principle stress (Opl, Op2). (c) Calculate the maximum shear stress (Tmax) [ksi] and the angles of maximum shear stress (Os1, 0:2). -20 20 40 60 02 0 01 [ksi]...
Problem 3 For the following stress state, draw a Mohr's circle diagram, find the principal stresses and maximum normal stress. Also determine 'clockwise' rotation necessary to achieve o. ax 10 ksi, ay 24 ksi, txy 6 ksi
please help me solve this whole mechanical design problem thanks Q3. (30 points) For the state of plane stress shown, Stresses, σ. σ2 (b) the orientation of the principal stresses, s, (c) the maximum in plane shearing stress, Tmar and (d) its orientation, p. (e) the normal stress at the plane of maximum shear stress, (1) sketch of the rotated plane element for the principal stresses and the rotated plane element for maximum shear stress similar to figure 1, below...
Draw and use Mohr's circle to determine (a) the principal stresses and (b) the maximum in-plane shear stress and average normal stress. Specify the orientation of the element in each case.