In the above question , the manitude of ...

In the above question , the manitude of the instantaneous acceleration is

`10 m//s^(2)`

`11m//s^(2)`

`12m//s^(2)`

`11.5 m//s^(2)`

Text Solution

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The correct Answer is:

`a=v^(2)/(r)=(60xx60)/(300)=12m//s^(2)`

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In the above question, the magnitude of the average acceleration over the arc of 60^(@) is

`10 m//s^(2)`

`11 m//s^(2)`

`11.5 m//s^(2)`

`12 m//s^(2)`

Assertion : We know the relation a = v. (dv)/ds . Therefore, if velocity of a particle is zero, then acceleration is also zero. Reason : In the above equation, a is the instantaneous acceleration.

If the both Assertion and Reason are true and the Reason is correct explanation of the Assertion.

If both Assertion and Reason are true but Reason is not the correct explanation of Assertion.

If Assertion is true, but the Reason is false.

If Assertion is false but the Reason is true.

For a body in circular motion with a constant angular velocity, the magnitude of the average acceleration over a period of half a revolution is … times the magnitude of its instantaneous acceleration.

`2/pi`

`pi/2`

`pi`

`2`

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In the above question , the manitude of the instantaneous acceleration is

Text Solution

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In the above question, the magnitude of the average acceleration over the arc of 60^(@) is

Assertion : We know the relation a = v. (dv)/ds . Therefore, if velocity of a particle is zero, then acceleration is also zero. Reason : In the above equation, a is the instantaneous acceleration.

For a body in circular motion with a constant angular velocity, the magnitude of the average acceleration over a period of half a revolution is … times the magnitude of its instantaneous acceleration.

Similar Questions

NIKITA PUBLICATION-CIRCULAR MOTION-Multiple Choice Question