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Mechanical Engineering Exam  >  Mechanical Engineering Tests  >  Test: Concentric & Spiral Springs - Mechanical Engineering MCQ

Test: Concentric & Spiral Springs - Mechanical Engineering MCQ


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15 Questions MCQ Test - Test: Concentric & Spiral Springs

Test: Concentric & Spiral Springs for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Test: Concentric & Spiral Springs questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Test: Concentric & Spiral Springs MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Concentric & Spiral Springs below.
Solutions of Test: Concentric & Spiral Springs questions in English are available as part of our course for Mechanical Engineering & Test: Concentric & Spiral Springs 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: Concentric & Spiral Springs | 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: Concentric & Spiral Springs - Question 1
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In concentric springs, vibrations called surge are amplified.

Detailed Solution for Test: Concentric & Spiral Springs - Question 1

Explantion: Surge are eliminated.

Test: Concentric & Spiral Springs - Question 2
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 Can concentric springs be used to obtain a force which is not proportional to its deflection?

Detailed Solution for Test: Concentric & Spiral Springs - Question 2

Explanation: Two sprigs having different free length can be meshed to obtain such a result.

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Test: Concentric & Spiral Springs - Question 3
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The load shared by each spring is inversely proportional to the cross section of wire.

Detailed Solution for Test: Concentric & Spiral Springs - Question 3

Explanation: It is directly proportional to the cross section of wire.

Test: Concentric & Spiral Springs - Question 4
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 A concentric spring consists of 2 sprigs of diameter 10mm and 4mm. The net force acting on the composite spring is 5000N. Find the force acting on each of the two springs.
Detailed Solution for Test: Concentric & Spiral Springs - Question 4

Explanation: P₁/P₂=d₁²/d₂² and P₁+P₂=5000.

Test: Concentric & Spiral Springs - Question 5
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If the spring have same solid length and number of coils in the two springs are 8 and 10, then find the diameter of the spring with 8 coils. It is given diameter of spring with 10 coils is 12mm.
Detailed Solution for Test: Concentric & Spiral Springs - Question 5

Explanation: N₁d₁=N₂d₂.

Test: Concentric & Spiral Springs - Question 6
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Two spring having stiffness constants of 22N/mm and 25N/mm are connected in parallel. They are to be replaced by a single spring to have same effect. The stiffness of that spring will be?
Detailed Solution for Test: Concentric & Spiral Springs - Question 6

Explanation: k=22+25.

Test: Concentric & Spiral Springs - Question 7
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What will happen if stresses induced due to surge in the spring exceeds the endurance limit stress of the spring.
Detailed Solution for Test: Concentric & Spiral Springs - Question 7

Explanation: If endurance limit is passed, fatigue failure will follow.

Test: Concentric & Spiral Springs - Question 8
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Surge is caused by resonance effect in the spring.
Detailed Solution for Test: Concentric & Spiral Springs - Question 8

Explanation: When the natural frequency of vibrations of the spring coincides with frequency of external periodic force, resonance occurs.

Test: Concentric & Spiral Springs - Question 9
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Surge is a desirable effect in the sprigs.
Detailed Solution for Test: Concentric & Spiral Springs - Question 9

Explanation: Surge means vibratory motion which isn’t welcomed anywhere in the machinery.

Test: Concentric & Spiral Springs - Question 10
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For a helical torsion sprig, the stress concentration factor at inner fibre is? Give spring index=5.
Detailed Solution for Test: Concentric & Spiral Springs - Question 10

Explanation: K=4C²-C-1/4C(C-1).

Test: Concentric & Spiral Springs - Question 11
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 For a helical torsion sprig, the stress concentration factor at outer fibre is? Give spring index=5. 
Detailed Solution for Test: Concentric & Spiral Springs - Question 11

Explanation: K=4C²+C-1/4C(C+1).

Test: Concentric & Spiral Springs - Question 12
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Spiral spring is quite rigid.
Detailed Solution for Test: Concentric & Spiral Springs - Question 12

Explanation: Spiral spring is made of very thin wire which imparts great flexibility.

Test: Concentric & Spiral Springs - Question 13
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The strip of spiral spring is never subjected to pure bending moment.
Detailed Solution for Test: Concentric & Spiral Springs - Question 13

Explanation: The strip of spiral spring is subjected to pure bending moment.

Test: Concentric & Spiral Springs - Question 14
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Calculate the bending stress induced in the strip of the helical spring. The spring is subjected to a moment of 1250N-mm with breadth and thickens of the strip being 11mm and 1.5mmm respectively.
Detailed Solution for Test: Concentric & Spiral Springs - Question 14

Explanation: σ=12M/bt².

Test: Concentric & Spiral Springs - Question 15
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Angle of rotation o arbour with respect to drum is given by?
Detailed Solution for Test: Concentric & Spiral Springs - Question 15

Explanation: θ=ML/EI where I=btᵌ/12.

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