(A) The relationship between linear speed $(v)$,angular speed $(\omega)$,and the radius of the circular path $(r)$ is given by the formula: $v = r\ome

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(A) The relationship between linear speed $(v)$,angular speed $(\omega)$,and the radius of the circular path $(r)$ is given by the formula: $v = r\omega$.Given that the linear speed $(v)$ is constant,we can rearrange the formula to solve for angular speed: $\omega = \frac{v}{r}$.Since $v$ is constant,it follows that $\omega \propto \frac{1}{r}$.Therefore,the angular speed is inversely proportional to the radius of the circle.

Class 11 Physics 3-2.Motion in Plane Angular Variables and Basic of Uniform Circular Motion

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If the linear speed of a particle moving in a circular path is constant,then the angular speed is proportional to (where $r$ is the radius of the circle):

A
$ 1/r $
B
$ 1/r^2 $
C
$ 1/r^3 $
D
$ 1/r^5 $

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3-2.Motion in Plane

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Angular Variables and Basic of Uniform Circular Motion

$A$ motorcyclist going around a circular track at a constant speed has:

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If a body moving in a circular path maintains a constant speed of $10 \,ms^{-1}$, then which of the following correctly describes the relation between acceleration $(a)$ and radius $(r)$?

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Centripetal acceleration of a cyclist completing $7$ rounds in a minute along a circular track of radius $5 \, m$ with a constant speed,is ......... $m/s^2$.

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$A$ particle is moving on a circular path of radius $r$ with uniform speed $v$. The magnitude of change in velocity when the particle moves from $P$ to $Q$ is $(\angle POQ = 40^o)$.

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Two particles having mass $M$ and $m$ are moving in circular paths having radii $R$ and $r$. If their time periods are the same,then the ratio of their angular velocities will be:

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If the linear speed of a particle moving in a circular path is constant,then the angular speed is proportional to (where $r$ is the radius of the circle):

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$A$ motorcyclist going around a circular track at a constant speed has:

If a body moving in a circular path maintains a constant speed of $10 \,ms^{-1}$, then which of the following correctly describes the relation between acceleration $(a)$ and radius $(r)$?

Centripetal acceleration of a cyclist completing $7$ rounds in a minute along a circular track of radius $5 \, m$ with a constant speed,is ......... $m/s^2$.

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