Question:
A stone of mass $1 \, kg$ is tied to end of a massless string of length $1 m$ If the breaking tension of the string is $400\, N$, then maximum linear velocity, the stone can have without breaking the string, while rotating in horizontal plane, is :
A stone of mass $1 \, kg$ is tied to end of a massless string of length $1 m$ If the breaking tension of the string is $400\, N$, then maximum linear velocity, the stone can have without breaking the string, while rotating in horizontal plane, is :
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The maximum velocity occurs when the centripetal force equals the maximum tension in the string.
Updated On: Feb 2, 2026
- $40 \,ms ^{-1}$
- $20\, ms ^{-1}$
- $400\, ms ^{-1}$
- $10 \,ms ^{-1}$
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The Correct Option is B
Approach Solution - 1
The correct answer is (B) : \(20\ ms^{-1}\)
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The maximum linear velocity occurs when the centripetal force is equal to the maximum tension in the string. The centripetal force is given by:
\[
F_c = \frac{mv^2}{r}
\]
where \( m \) is the mass of the stone, \( v \) is the linear velocity, and \( r \) is the radius (which is the length of the string).
Setting the centripetal force equal to the maximum tension:
\[
\frac{mv^2}{r} = T
\]
Substitute \( m = 1 \, \text{kg} \), \( r = 1 \, \text{m} \), and \( T = 400 \, \text{N} \):
\[
\frac{1 \times v^2}{1} = 400
\]
\[
v^2 = 400
\]
\[
v = 20 \, \text{m/s}
\]
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Work, Energy and Power
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- The work done by the force is described to be the product of the elements of the force in the direction of the displacement and the magnitude of this displacement.
Energy:
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- There are two types of mechanical energy such as; Kinetic and potential energy.
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Power:
- Power is the rate at which energy is transferred, conveyed, or converted or the rate of doing work. Technologically, it is the amount of work done per unit of time. The SI unit of power is Watt (W) which is joules per second (J/s). Sometimes the power of motor vehicles and other machines is demonstrated in terms of Horsepower (hp), which is roughly equal to 745.7 watts.
- Power is a scalar quantity, which gives us a quantity or amount of energy consumed per unit of time but with no manifestation of direction.