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A steel wire of length 1 m, mass 0.1 kg ...

A steel wire of length 1 m, mass 0.1 kg and uniform cross-sectional area `10^(-6)m^(2)` is rigidly fixed at both ends. The temperature of wire is lowered by 20°C. If transverse waves are set up by plucking the string in the middle, calculate the frequency (In S.I. units) of the fundamental mode of vibration. Young’s modulus of steel `=2xx10^(11)N//m^(2)`, coefficient of linear expansion of steel`=1.21xx10^(-6)(degC)^(-1)`.

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RESONANCE ENGLISH-WAVE ON STRING -Exercise- 2 PART II
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  2. Figure shows a string of linear mass density 1.0g cm^(-1) on which a w...

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  3. A wire of 9.8 xx 10^(-3) kg per meter mass passes over a fricationless...

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  4. A uniform rope of length 12 mm and mass 6 kg hangs vertically from a r...

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  5. A non-uniform wire of length l and mass M has a variable linear mass d...

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  6. A man generates a symmetrical pulse in a string by moving his hand up ...

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  7. A uniform horizontal rod of length 40 cm and mass 1.2 kg is supported ...

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  8. A string of length 'l' is fixed at both ends. It is vibrating in tis 3...

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  9. A string of mass 'm' and length l, fixed at both ends is vibrating in ...

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  10. A travelling wave of amplitude 5 A is partically reflected from a boun...

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  11. A 50 cm long wire of mass 20 g suports a mass of 1.6 kg as shown in f...

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  12. A 1 m long rope, having a mass of 40 g, is fixed at one end and is tie...

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  13. In an experiment of standing waves, a string 90 cm long is attached to...

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  14. Three resonant frequencies of string with both rigid ends are 90, 150 ...

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  15. A steel wire of length 1 m, mass 0.1 kg and uniform cross-sectional ar...

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  16. A wire having a lineat density of 0.05 gm/ cc is stretched between two...

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  17. Figure shows a string stretched by a block going over a pulley. The st...

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  18. Figure shows an aluminium wire of length 60 cm joined to a steel wire ...

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  19. A metallic wire with tension T and at temperature 30^(@)C vibrates wit...

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