A rod that has a solid circular cross-section with adiameter of 40 mm is subjected to the shown loads.Determine the state of stress at point A.Given:The area moment of inertia of a solid circular cross-section about its neutral axis is INA = (πR4)/4.The polar moment of inertia of a solid circularcross-section about its neutral axis is JNA = (πR4)/2.The centroid of a semi-circle is located at 4R/(3π)from the horizontal axis representing the diameterline.500 mm1000 N100 N·m200 N400 NSelect one:ox -15.1 Mpa and Txy = -7.5 MpaNone of theseox=-16.7 Mpa and Txy = -8.4 Mpaox = -13.35 Mpa and Txy = -8.4 Mpaox = 16.7 Mpa and Txy = 8.4 MpaB100 mmx

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Answered: A rod that has a solid circular…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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A rod that has a solid circular cross-section with a diameter of 20 mm is subjected to the shown loads. Determine the state of stress at point A. Given: The area moment of inertia of a solid circular cross-section about its neutral axis is INA = (πR4)/4. The polar moment of inertia of a solid circular cross-section about its neutral axis is JNA = (πR4)/2. The centroid of a semi-circle is located at 4R/(3π) from the horizontal axis representing the diameter line. 1500 N 400 mm 600 N 100 N·m 800 N 100 mm x A B
A rod that has a solid circular cross-section with a diameter of 30 mm is subjected to the shown loads. Determine the state of stress at point A. Given: The area moment of inertia of a solid circular cross-section about its neutral axis is INA = (πR4)/4. The polar moment of inertia of a solid circular cross-section about its neutral axis is JNA = (πR4)/2. The centroid of a semi-circle is located at 4R/(3π) from the horizontal axis representing the diameter line.
A rod that has a solid circular cross-section with a diameter of 30 mm is subjected to the shown loads. Determine the state of stress at point A. Given: The area moment of inertia of a solid circular cross-section about its neutral axis is INA = (πR4)/4. The polar moment of inertia of a solid circular cross-section about its neutral axis is JNA = (πR4)/2. The centroid of a semi-circle is located at 4R/(3π) from the horizontal axis representing the diameter line. options : σx = 56 Mpa and τxz = -1.2 Mpa σx = -57.2 Mpa and τxz = 0.4 Mpa σx = -14.6 Mpa and τxz = -0.8 Mpa None of these σx = -51.5 Mpa and τxz = -1.2 Mpa
A rod has a solid circular cross section with a diameter of 40 mm is subjected to the shown loads. Determine the state of stress at point A. OX = Ixy= Given: The area moment of inertia of a solid circular cross section about its neutral axis is INA = (πR4)/4. The polar moment of inertia of a solid circular cross section about its neutral axis is JNA = (πR4)/2. The centroid of a semi-circle is located at 4R/(3) from the horizontal axis representing the diameter line. 1500 N 200 mm 600 N 100 N-m 800 N 100 mm
A rod has a solid circular cross section with a diameter of 40 mm is subjected to the shown loads. Determine the state of stress at point A. OX= Ixy = Given: The area moment of inertia of a solid circular cross section about its neutral axis is INA = (TR4)/4. The polar moment of inertia of a solid circular cross section about its neutral axis is JNA = (TR4)/2. The centroid of a semi-circle is located at 4R/(3n) from the horizontal axis representing the diameter line. 1500 N -37 Mpa 64 Mpa 3.5 Mpa 7.3 Mpa 600 N 37 Mpa -7.3 Mpa 300 mm 100 N·m 800 N 100 mm B
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Determine the resultant internal loadings acting on the cross section at ‘C’ of the machine shaft shown. The shaft is supported by journal bearings at ‘A’ and ‘B’ which only exert vertical forces on the shaft. Use the right side of point ‘C’ in your solution.
A rod has a solid circular cross section with a diameter of 40 mm is subjected to the shown loads. Determine the state of stress at point A. σX = Ixy= Given: The area moment of inertia of a solid circular cross section about its neutral axis is INA = (πR4)/4. The polar moment of inertia of a solid circular cross section about its neutral axis is JNA = (πR4)/2. The centroid of a semi-circle is located at 4R/(3) from the horizontal axis representing the diameter line. 200 mm 1500 N 100 N-m 800 N 600 N B 100 mm 50.6 Mpa -24.3 Mpa 24.5 Mpa 14.6 Mpa 30.2 Mpa -7.3 Mpa
A member having the dimensions shown is used to resist an internal bending moment of M kNm. Determine the maximum stress in the member if the moment is applied (a) about the z axis (as shown) (b) about the y axis. Sketch the stress distribution for each case. Take: M= 90 kNm A mm A= 200 mm B= 150 mm B mm Solution: The moment of inertia of the cross-section about z and y axes are I;-4 1 - AB³ 12 (10) m* I BA = (10) m*
The W-kg man stands in the position shown. If the center of gravity of the man is at Gand assuming that the contact point at C is smooth.a) Find the reactions at B and C. b) Determine the state of stress at point A on the cross section of the plank at sectiona–a (Cubic stress element in 2D).
Determine the maximum stress in the frame of the 100kN punch press as shown in the figure. 15cm 36cm 3cm 4cm. 100 kN 100 kN
determine the effective stress at point D

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