Q. No.If the length of a wire is reduced to half, then it can hold the ......... load
(1) Half
(2) Same
(3) Double
(4) One fourth
Why the spring is made up of steel in comparison of copper?
(1) Copper is more costly than steel
(2) Copper is more elastic than steel
(3) Steel is more elastic than copper
(4) None of the above
Two wires of copper having length in the ratio of \(4:1\) and radii ratio of \(1:4\) are stretched by the same force. The ratio of longitudinal strain in the two will be:
| 1. | \(1:16\) | 2. | \(16:1\) |
| 3. | \(1:64\) | 4. | \(64:1\) |
The force constant of a wire does not depend on
(1) Nature of the material
(2) Radius of the wire
(3) Length of the wire
(4) None of the above
1. \(2.0\times 10^{10}~\text{N/m}^2\)
2. \(4\times 10^{10}~\text{N/m}^2\)
3. \(2.0\times 10^{11}~\text{N/m}^2\)
4. \(2.0\times 10^{13}~\text{N/m}^2\)
The quality of the material which opposes the change in shape, volume or length is called
(1) Intermolecular repulsion
(2) Intermolecular behaviour
(3) Viscosity
(4) Elasticity
A wire of length L and radius r is rigidly fixed at one end. On stretching the other end of the wire with a force F, the increase in its length is l. If another wire of same material but of length 2L and radius 2r is stretched with a force of 2F, the increase in its length will be
(a) l (b) 2l
(c) (d)
In steel, the Young's modulus and the strain at the breaking point are and 0.15 respectively. The stress at the breaking point for steel is therefore -
(1)
(2)
(3)
(4)
Which one of the following substances possesses the highest elasticity:
(1) Rubber
(2) Glass
(3) Steel
(4) Copper
Which one of the following quantities does not have the unit of force per unit area?
1. Stress
2. Strain
3. Young's modulus of elasticity
4. Pressure
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