Vertical Circular Motion – Rankers Physics
Topic: Circular Motion
Subtopic: Vertical Circular Motion

Vertical Circular Motion

Assertion (A): A bob of mass \( m \) is freely suspended from a light rod of length \( L \). The minimum speed given to bob at lowest position to complete vertical circle is \( 2\sqrt{gL} \).
Reason (R): A bob of mass \( m \) is freely suspended from a light string of length \( L \). If bob is given speed \( \sqrt{6gL} \) at the lower position then bob will be complete vertical circle.
Both (A) & (R) are true and the (R) is the correct explanation of the (A)
Both (A) & (R) are true but the (R) is not the correct explanation of the (A)
(A) is true but (R) is false
Both (A) and (R) are false

Solution:

For a mass attached to a rod, the minimum speed at the lowest point to complete a vertical circle is \( v_{min} = 2\sqrt{gL} \). So (A) is true. For a mass on a string, if \( v_{bottom} = \sqrt{6gL} \), the speed at the top will be \( v_{top} = \sqrt{2gL} \). Since \( v_{top} > \sqrt{gL} \), the circle will be completed. So (R) is true. However, they describe different conditions, so (R) is not a correct explanation of (A).

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