By what fraction does the mass of a spri...

By what fraction does the mass of a spring is 200 g at its natural lenth and the spring constant is `500 N m ^(-1)

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Given ` X = 1 cm `
` = 1 xx 10^(-2) m,`
` K = 500 N/m , m 200 g `
Energy stored `= 1/2 Kx^(2) `
` = 1 / 2 xx 500 xx 10^(-4)`
` = 0.25 J`
Increasein mass `= 0.025 / c^(2) = 0.025 / 9 xx 10^(16)`
Fractional Change of mass `= 0.025 / 9 xx 10^(16) xx 1 / 2 xx 10^(-1) `
` = 0.01388 xx 10^(-6) `
` = 1.4 xx 10^(-18) ` .

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A mass M=5 kg is attached to a string as shown in the figure and held in position so that the spring remains unstretched. The spring constant is 200 Nm^(-1) . The mass M is then released and begins to undergo small oscillations. The amplitude of oscillation is

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A mass m = 8kg is attached to a spring as shown in figure and held in positioin so that the spring remains unstretched. The spring constant is 200 N/m. The mass m is then released and begins to undergo small oscillations. The maximum velocity of the mass will be (g=10m/ s^(2))

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By what fraction does the mass of a spring is 200 g at its natural lenth and the spring constant is `500 N m ^(-1)

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A mass M=5 kg is attached to a string as shown in the figure and held in position so that the spring remains unstretched. The spring constant is 200 Nm^(-1) . The mass M is then released and begins to undergo small oscillations. The amplitude of oscillation is

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A mass m = 8kg is attached to a spring as shown in figure and held in positioin so that the spring remains unstretched. The spring constant is 200 N/m. The mass m is then released and begins to undergo small oscillations. The maximum velocity of the mass will be (g=10m/ s^(2))

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HC VERMA-THE SPECIAL THEORY OF RELATIVITY-Exercises