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Mechanical Engineering Exam  >  Mechanical Engineering Tests  >  Test: Shaft Design - Mechanical Engineering MCQ

Test: Shaft Design - Mechanical Engineering MCQ


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15 Questions MCQ Test - Test: Shaft Design

Test: Shaft Design for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Test: Shaft Design questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Test: Shaft Design MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Shaft Design below.
Solutions of Test: Shaft Design questions in English are available as part of our course for Mechanical Engineering & Test: Shaft Design solutions in Hindi 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: Shaft Design | 15 questions in 30 minutes | Mock test for Mechanical Engineering preparation | Free important questions MCQ to study for Mechanical Engineering Exam | Download free PDF with solutions
Test: Shaft Design - Question 1
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While designing shaft on the basis of torsional rigidity, angle of twist is given by?

Detailed Solution for Test: Shaft Design - Question 1

Explanation: θ=(180/π)xMl/GJ where J=πd⁴/32.

Test: Shaft Design - Question 2
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According to ASME code, maximum allowable shear stress is taken as X% of yield strength or Y% of ultimate strength.

Detailed Solution for Test: Shaft Design - Question 2

Explanation: ASME Standard. The lesser value is taken among the two.

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Test: Shaft Design - Question 3
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 Does ASME Standard take into consideration shock and fatigue factors?

Detailed Solution for Test: Shaft Design - Question 3

Explanation: Moment is multiplied by a number to consider these factors while designing the shaft.

Test: Shaft Design - Question 4
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The layout of a shaft supported on bearings at A & B is shown. Power is supplied by means of a vertical belt on pulley B which is then transmitted to pulley C carrying a horizontal belt. The angle of wrap is 180’ and coefficient of friction is 0.3. Maximum permissible tension in the rope is 3kN. The radius of pulley at B & C is 300mm and 150mm.

Q. Calculate the torque supplied to the shaft.
Detailed Solution for Test: Shaft Design - Question 4

Explanation: M=(P₁-P₂)xR where P₁=3000N, P₂=P₁/e^(Coeff of friction x Angle of wrap).

Test: Shaft Design - Question 5
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The layout of a shaft supported on bearings at A & B is shown. Power is supplied by means of a vertical belt on pulley B which is then transmitted to pulley C carrying a horizontal belt. The angle of wrap is 180’ and coefficient of friction is 0.3. Maximum permissible tension in the rope is 3kN. The radius of pulley at B & C is 300mm and 150mm.

Q. Calculate the tension in the rope of pulley C.
Detailed Solution for Test: Shaft Design - Question 5

Explanation: (P₃-P₄)x150=549.3×1000 and P₃/P₄=2.6. Hence P₃=5948.15N and P₄=2288.75N.

Test: Shaft Design - Question 6
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The layout of a shaft supported on bearings at A & B is shown. Power is supplied by means of a vertical belt on pulley B which is then transmitted to pulley C carrying a horizontal belt. The angle of wrap is 180’ and coefficient of friction is 0.3. Maximum permissible tension in the rope is 3kN. The radius of pulley at B & C is 300mm and 150mm.

Q. If allowable shear stress in the shaft is 70N/mm² and torsional and bending moments are M=1185000N-mm and m=330000N-mm, find the diameter of the shaft.
Detailed Solution for Test: Shaft Design - Question 6

Explanation: 70=(16/πdᵌ)x√M²+m².

Test: Shaft Design - Question 7
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The layout of a shaft supported on bearings at A & B is shown. Power is supplied by means of a vertical belt on pulley B which is then transmitted to pulley C carrying a horizontal belt. The angle of wrap is 180’ and coefficient of friction is 0.3. Maximum permissible tension in the rope is 3kN. The radius of pulley at B & C is 300mm and 150mm.

Q.  If bending moment on point B in horizontal plate is M and in vertical plane is m, then the net bending moment at point B is?
Detailed Solution for Test: Shaft Design - Question 7

Explanation: The two moments act perpendicularly to each other.

Test: Shaft Design - Question 8
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Calculate the shaft diameter on rigidity basis if torsional moment is 196000N-mm, length of shaft is 1000mm. Permissible angle of twist per meter is 0.5’ and take G=79300N/mm².
Detailed Solution for Test: Shaft Design - Question 8

Explanation: d⁴=584Ml/Gθ.

Test: Shaft Design - Question 9
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If yielding strength=400N/mm², the find the permissible shear stress according to ASME standards.
Detailed Solution for Test: Shaft Design - Question 9

Explanation: 0.18×400.

Test: Shaft Design - Question 10
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The stiffness of solid shaft is more than the stiffness of hollow shaft with same weight.
Detailed Solution for Test: Shaft Design - Question 10

Explanation: Hollow shaft is more stiff.

Test: Shaft Design - Question 11
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The strength of hollow shaft is more than the strength of solid shaft of same weight.
Detailed Solution for Test: Shaft Design - Question 11

Explanation: Outer fibers are more effective in resisting the applied moments. In hollow shafts material is removed and spread on a larger radius.

Test: Shaft Design - Question 12
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Solid shaft is costlier than hollow shaft of same weight.
Detailed Solution for Test: Shaft Design - Question 12

Explanation: Hollow shaft cost is more as material is to be selectively emplaced.

Test: Shaft Design - Question 13
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Solid shafts are used in epicyclic gearboxes.
Detailed Solution for Test: Shaft Design - Question 13

Explanation: In epicyclic gears, one shaft rotates inside other and hence hollow shafts are used.

Test: Shaft Design - Question 14
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Flexible shafts have ___ rigidity in torsion making them flexible.
Detailed Solution for Test: Shaft Design - Question 14

Explanation: Flexible shafts have high rigidity in torsion making then capable to transmit torque.

Test: Shaft Design - Question 15
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Flexible shafts have ______ rigidity in bending moment.
Detailed Solution for Test: Shaft Design - Question 15

Explanation: Flexible shafts have low rigidity in bending moments making them flexible.

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Important Questions for Shaft Design

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Shaft Design MCQs with Answers

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