Assertion: A particle is irotating in a ...

Assertion: A particle is irotating in a circle with constant speed as shown. Between point `A` and `B` , ratio of average acceleration and average velocity `v` can be stopped in a minimum distanc e`d` . If the same car, moving with same speed `v` takes a circular turn, then minimum safe radius can be `2d` .
Reasion: `d=(v_(2))/(2mug)` and minimum safe radius `=(v_(2))/(mug)`

If 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, true but the Reason is false.

If Assertion is false but the Reason is true.

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Assertion: A particle is rorating in a circle with constant speed as shown. Between point A and B , ratio of average acceleration and average velocity is angular velocity of particle about point O . lReason: Since speed is constant, angular velocity is also constant.

If 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, true but the Reason is false.

If Assertion is false but the Reason is true.

A particle moves in circle of radius R with a constant speed v. Then, find the magnitude of average acceleration during a time interval (pi R)/(2v) .

`3sqrt(2)V^(2)// pi R `

`2sqrt(2)V^(2)// pi R `

`3V^(2)// pi R `

`2V^(2)// pi R `

A car moving with a speed of 40 km/h can be stopped by applying brakes after at least 2m. If the same car is moving with a speed of 80 km/h., what is the minimum stopping distance ?

2 m

4 m

6 m

8 m

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Assertion: A particle is rorating in a circle with constant speed as shown. Between point A and B , ratio of average acceleration and average velocity is angular velocity of particle about point O . lReason: Since speed is constant, angular velocity is also constant.

A particle moves in circle of radius R with a constant speed v. Then, find the magnitude of average acceleration during a time interval (pi R)/(2v) .

A car moving with a speed of 40 km/h can be stopped by applying brakes after at least 2m. If the same car is moving with a speed of 80 km/h., what is the minimum stopping distance ?

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DC PANDEY-CIRCULAR MOTION-Assertion And Reason