The Young's modulus of steel is twice that of brass. Two wires of same length and of 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:  Stress - Strain |
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Copper of fixed volume V is drawn into wire of length l. When this wire is subjected to a constant force F, the extension produced in the wire is  Δl. Which of the following graphs is a straight line?

(1)Δl versues 1/l

(2)Δl versus l2

(3)Δl versus 1/l2

(4) Δl versus l

Subtopic:  Hooke's Law |
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The following four wires are made of the same material. Which of them will have the largest extension when the same tension is applied?

(1) Length=50cm, diameter=0.5mm

(2) Length=100cm, diameter=1mm

(3) Length=200cm, diameter=2mm

(4) Length=300cm, diameter=3mm

Subtopic:  Hooke's Law |
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When a certain weight is suspended from a long uniform wire, its length increases by one cm. If the same weight is suspended from another wire of the same material and length but having a diameter half of the first one then the increase in length will be -

(1) 0.5 cm

(2) 2 cm

(3) 4 cm

(4) 8 cm

Subtopic:  Hooke's Law |
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The area of cross-section of a wire of length 1.1 metre is 1$m{m}^{2}.$It is loaded with 1 kg. If Young's modulus of copper is $1.1×{10}^{11}N/{m}^{2},$ then the increase in length will be (If $g=10m/{s}^{2}$)

(1) 0.01 mm

(2) 0.075 mm

(3) 0.1 mm

(4) 0.15 mm

Subtopic:  Hooke's Law |
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In CGS system, the Young's modulus of a steel wire is  . To double the length of a wire of unit cross-section area, the force required is

(a) $4×{10}^{6}$dynes                     (b) $2×{10}^{12}dynes$

(c) $2×{10}^{12}newtons$                (d) $2×{10}^{8}$dynes

Subtopic:  Hooke's Law |
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The material which practically does not show elastic after effect is

(1) Copper

(2) Rubber

(3) Steel

(4) Quartz

Subtopic:  Elasticity |
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A force F is needed to break a copper wire having radius R. The force needed to break a copper wire of radius 2R will be

(1) F/2

(2) 2F

(3) 4F                                       (4) F/4

Subtopic:  Stress - Strain |
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The relationship between Young's modulus Y, Bulk modulus K and modulus of rigidity n is

(1) $Y=\frac{9nK}{n+3K}$

(2) $\frac{9YK}{Y+3K}$

(3)  $Y=\frac{9nK}{3+K}$

(4) $Y=\frac{3nK}{9n+K}$

Subtopic:  Elasticity |
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The Young's modulus of a rubber string 8 cm long and density  is , is suspended on the ceiling in a room. The increase in length due to its own weight will be

(1)

(2) $9.6×{10}^{-11}m$

(3)

(4) 9.6 m

Subtopic:  Stress - Strain |
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