Steel and copper wires of the same length and area are stretched by the same weight one after the other. Young's modulus of steel and copper are \(2\times10^{11} ~\text{N/m}^2\) and  \(1.2\times10^{11}~\text{N/m}^2\). The ratio of increase in length is: 

1. \(2 \over 5\) 2. \(3 \over 5\)
3. \(5 \over 4\) 4. \(5 \over 2\)
Subtopic:  Young's modulus |
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A steel ring of radius \(r\) and cross-section area \(A\) is fitted onto a wooden disc of radius \(R(R>r).\) If Young's modulus is \({E},\) then the force with which the steel ring is expanded is:
1. \({AE} \frac{R}{r} \) 2. \(A E \left(\frac{R-r}{r}\right)\)
3. \(\frac{E}{A}\left(\frac{R-r}{A}\right)\) 4. \(\frac{Er}{AR}\)
Subtopic:  Young's modulus |
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If the ratio of lengths, radii and Young's modulus of steel and brass wires in the figure are \(a,\) \(b\) and \(c\) respectively, then the corresponding ratio of increase in their lengths will be:

1. 2a2cb 2. 3a2b2c
3. 2acb2 4. 3c2ab2
Subtopic:  Young's modulus |
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Given below are two statements: 
Assertion (A): Young's modulus for a perfectly plastic body is zero.
Reason (R): For a perfectly plastic body, restoring force is zero.
1. Both (A) and (R) are True and (R) is the correct explanation of (A).
2. Both (A) and (R) are True but (R) is not the correct explanation of (A).
3. (A) is True but (R) is False.
4. Both (A) and (R) are False.
Subtopic:  Young's modulus |
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Two wires are made of the same material and have the same volume. The first wire has a cross-sectional area \(A\) and the second wire has a cross-sectional area \(3A\). If the length of the first wire is increased by \(\Delta l\) on applying a force \(F\), how much force is needed to stretch the second wire by the same amount?

1. \(9F\) 2. \(6F\)
3. \(4F\) 4. \(F\)
Subtopic:  Young's modulus |
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The Young's modulus of steel is twice that of brass. Two wires of the same length and of the same area of cross-section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weight added to the steel and brass wires must be in the ratio of:
1. \(1:2\) 2. \(2:1\)
3. \(4:1\) 4. \(1:1\)
Subtopic:  Young's modulus |
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On applying stress of \(20 \times 10^{8}~\text{N/m}^2\), the length of a perfectly elastic wire is doubled. It's Young’s modulus will be:

1. \(40 \times 10^{8}~\text{N/m}^2\) 2. \(20 \times 10^{8}~\text{N/m}^2\)
3. \(10 \times 10^{8}~\text{N/m}^2\) 4. \(5 \times 10^{8}~\text{N/m}^2\)
Subtopic:  Young's modulus |
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The Young's modulus of a wire is numerically equal to the stress at a point when:

1. The strain produced in the wire is equal to unity.
2. The length of the wire gets doubled.
3. The length increases by \(100\%.\)
4. All of these.
Subtopic:  Young's modulus |
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In the CGS system, Young's modulus of a steel wire is \(2\times 10^{12}\) dyne/cm2. To double the length of a wire of unit cross-section area, the force required is:
1. \(4\times 10^{6}\) dynes
2. \(2\times 10^{12}\) dynes
3. \(2\times 10^{12}\) newtons
4. \(2\times 10^{8}\) dynes

Subtopic:  Young's modulus |
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A metallic rope of diameter \(1~ \text{mm}\) breaks at \(10 ~\text{N}\) force. If the wire of the same material has a diameter of \(2~\text{mm}\), then the breaking force is:

1. \(2.5~\text{N}\)  2. \(5~\text{N}\) 
3. \(20~\text{N}\)  4. \(40~\text{N}\) 

Subtopic:  Young's modulus |
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