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Mechanical Engineering Exam  >  Mechanical Engineering Tests  >  Topicwise Question Bank for Mechanical Engineering  >  Test: Analysis of Stress & Strain - 3 - Mechanical Engineering MCQ

Test: Analysis of Stress & Strain - 3 - Mechanical Engineering MCQ


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10 Questions MCQ Test Topicwise Question Bank for Mechanical Engineering - Test: Analysis of Stress & Strain - 3

Test: Analysis of Stress & Strain - 3 for Mechanical Engineering 2024 is part of Topicwise Question Bank for Mechanical Engineering preparation. The Test: Analysis of Stress & Strain - 3 questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Test: Analysis of Stress & Strain - 3 MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Analysis of Stress & Strain - 3 below.
Solutions of Test: Analysis of Stress & Strain - 3 questions in English are available as part of our Topicwise Question Bank for Mechanical Engineering for Mechanical Engineering & Test: Analysis of Stress & Strain - 3 solutions in Hindi for Topicwise Question Bank for Mechanical Engineering course. Download more important topics, notes, lectures and mock test series for Mechanical Engineering Exam by signing up for free. Attempt Test: Analysis of Stress & Strain - 3 | 10 questions in 30 minutes | Mock test for Mechanical Engineering preparation | Free important questions MCQ to study Topicwise Question Bank for Mechanical Engineering for Mechanical Engineering Exam | Download free PDF with solutions
Test: Analysis of Stress & Strain - 3 - Question 1
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A solid circular shaft is subjected to bending moment M and twisting moment T. What is the equivalent twisting moment Te which will produce the same maximum shear stress as the above combination?

Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 1

Maximum shear stress,

Test: Analysis of Stress & Strain - 3 - Question 2
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Strain rosettes are used to

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Test: Analysis of Stress & Strain - 3 - Question 3
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The principal stresses at a point in an elastic material are 60 N/mm2 tensile, 20 N/mm2 tensile and 50 N/mm2 compressive. If the material properties are: μ = 0.35 and E = 105 N/mm2 then the volumetric strain of the material is

Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 3

Volumetric strain,

Test: Analysis of Stress & Strain - 3 - Question 4
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The state of stress at a point in a body under plane state of stress condition is given by MPa . The maximum shear stress (in MPa) is
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Test: Analysis of Stress & Strain - 3 - Question 5
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If at a point in a body σ= 70 MPa, σ= 60 MPa and τxy = - 5 MPa, then the radius of Mohr’s circle is equal to
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 5

Radius of Mohr’s circle

Test: Analysis of Stress & Strain - 3 - Question 6
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The state of stress at a point in a loaded member is shown in figure below. The magnitude of maximum shear stress is
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 6

Maximum shear stress

= 50 MPa

Test: Analysis of Stress & Strain - 3 - Question 7
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The cross-section of a bar is subjected to a uniaxial tensile stress 'p' The tangential stress on a plane inclined at θ to the cross-section of the bar would be
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 7

Normal stress = pcos2θ
Tangential stress = psinθ cosθ

Test: Analysis of Stress & Strain - 3 - Question 8
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The figure shows the state of stress at a certain point in a stressed body. The magnitudes of normal stresses in the x and y directions are 100 MPa and 20 MPa respectively. The radius of Mohr’s stress circle representing this state of stress is
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 8

Radius of Mohr’s circle

= 60 MPa

Test: Analysis of Stress & Strain - 3 - Question 9
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Match List-I (State of stress) with List-II (Kind of loading) and select the correct answer using the codes given below the lists:
List-I




List-II
1. Combined bending and torsion of circular shaft
2. Torsion of circular shaft
3. Thin cylinder subjected to internal pressure
4. The bar subjected to tensile force
Codes:
    A B C D
(a) 2 1 3 4
(b) 3 4 2 1
(c) 2 4 3 1
(d) 3 1 2 4
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 9

Torsion of circular shaft (pure shear)

Bar subjected to tensile force (shear will not be present)

Combined bending and torsion

Thin cylinder subjected to internal pressure

Test: Analysis of Stress & Strain - 3 - Question 10
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Consider the Mohr’s circle shown below. What is the state of stress represented by this circle?
Detailed Solution for Test: Analysis of Stress & Strain - 3 - Question 10

The state of stress is represented by σx = σy = 0, τxy ≠ 0

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