A rod has a solid circular cross section with adiameter of 40 mm is subjected to theshown loads. Determine the state of stressat point A.σX =Ixy=Given:The area moment of inertia of a solid circularcross section about its neutral axis is INA =(πR4)/4.The polar moment of inertia of a solidcircular cross section about its neutral axis isJNA = (πR4)/2.The centroid of a semi-circle is located at4R/(3) from the horizontal axis representingthe diameter line.200 mm1500 N100 N-m800 N600 NB100 mm50.6 Mpa-24.3 Mpa24.5 Mpa14.6 Mpa 30.2 Mpa-7.3 Mpa

First, we need to calculate the area moment of inertia (INA) and the polar moment of inertia (JNA)…

Answered: A rod has a solid circular cross…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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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 that 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. 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. 500 mm 1000 N 100 N·m 200 N 400 N Select one: ox -15.1 Mpa and Txy = -7.5 Mpa None of these ox=-16.7 Mpa and Txy = -8.4 Mpa ox = -13.35 Mpa and Txy = -8.4 Mpa ox = 16.7 Mpa and Txy = 8.4 Mpa B 100 mm x
A rod has a solid circular cross section with a diameter of 50 mm is subjected to the shown loads. Determine the state of stress at point A. σx = τxz = 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 has a solid circular cross section with a diameter of 50 mm is subjected to the shown loads. Determine the state of stress at point A. σx = τxz = 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.
Calculate the stress perpendicular to the inclined plane AB. Report your answer as a positive number.Answer: σn= Enter your answer in accordance to the question statement ksi.
Determine the state of stress at point A on the cross section at section a-a of the cantilever beam. The moment area of inertia of the cross section about its horizontal neutral axis is INA= 0.225 x 10-3 m4.
What is true answer
A moment of M=50kNm is applied to the part in the figure on the axis seen. Find the maximum stress that will occur in the part. (The small area between the round and flat part will be neglected, so ӯ and the moment of inertia will be calculated according to (two rectangular parts + one circle part).) (diameter=65mm)
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