Please show all steps 300 psi Problem 5 (5 points) Determine the state of stress on...
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4. The stress element on the fuselage of an airplane shown below is Gx 400 MPa; Oy -300 MPa; and Txy 200 MPa (clockwise). a. Draw the initial stress element showing the stresses acting on it. b. Showing your X and Y coordinate points clearly, draw the complete Mohr's circle on the attached graphing paper From the Mohr's circle, determine Gmax, Omin, and Tmax c. d. Draw the complete principal stress element. Draw the maximum shear...
Knowing that for the state of stress shown below ox = 18 ksi, ay = 20 ksi, and Txy = 9 ksi, determine the angle that the x-axis must be rotated counter-clockwise to be oriented in the direction of the maximum principal stress. Express your answer in degrees to the nearest 0.1 degrees. -0 - X Question 2 1 pts Knowing that for the state of stress shown below Ox=9ksi, o, -21 ksi, and Txy 3 ksi, determine the maximum...
11000 psi Problem 3. Use Mohr's Circle to determine the state of stress on a point rotated 25° counterclockwise from that shown to the right 500 psi - 500 psi → 300 psi 11000 psi
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Q2. The stresses at a point along a beam supporting a sign are σχ-52.25 ksi, ơy-51.175 ksi, and Txy 52.82 ksi in the directions as shown in the planar stress element. Using the stress transformation equations, find (a) the principal stresses. Show these stresses on a sketch of a properly oriented element. (b) the maximum shear stresses and associated normal stresses. Show these stresses on a sketch ofa properly oriented element xy Mona's office
Problem 6 (15 points) The state of plane stress at a point is shown on the element in Figure 6. a. Using Mohr's circle, determine the principal stresses and the maximum in-plane shear stress and average normal stress. Specify the orientation of the element in each case. b. Represent the state of stress on an element oriented 30° counterclockwise from the position shown in Figure 6. 20 MPa 100 MPa 40 MPa Figure 6 (plot Mohr's circle on the next...
Figure 4 shows an element experiencing several stress components. Determine the following: 1. The stress components Oxvxr. Oysy, and T xuy, acting on the element oriented at a counter clockwise angle = 40° from the horizontal x axis 2. The principal stresses, the maximum shear stress and their associated angles For each of the stress state calculated in parts 1 and 2, show all results on sketches of properly oriented elements. Note: Solutions MUST be obtained using Mohr's circle ONLY....
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The 60 deg strain rosette is mounted on a steel plate (E = 30e6 psi, G = 11.5e6 psi). Readings obtained from each gage are shown below. Using strain transformation equations, determine Ex, Ey and Yxy. Solve for Ox, Oy and Txy. Draw the stress element with values and directions. €2 = 737e-6 £1 = 389e-6 45° 45° €3 = -290e-6
please show all work clearly. **the deg is 45, NOT 60**
The 60 deg strain rosette is mounted on a steel plate (E = 30e6 psi, G = 11.5e6 psi). Readings obtained from each gage are shown below. Using strain transformation equations, determine Ex, Ey and Yxy. Solve for Ox, Oy and Txy. Draw the stress element with values and directions. €2 = 737e-6 £1 = 389e-6 45° 45° €3 = -290e-6
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Using Mohr's Circle, determine the plane stress state (Cy', Oz', Ty’z) of the element shown below when it is rotated 60° counterclockwise. If your work does not demonstrate use of Mohr's Circle, you will get zero points. Answer: 350 psi 75 psi 200 psi
Determine the equivalent state of stress if an element is oriented 62.9° clockwise from the element shown in (Figure 1).