(C) The angular velocity $\omega$ is given by the formula $\omega = 2\pi n$,where $n$ is the frequency in revolutions per second.Given,$n = 120 \text{

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(C) The angular velocity $\omega$ is given by the formula $\omega = 2\pi n$,where $n$ is the frequency in revolutions per second.Given,$n = 120 \text{ revolutions per minute} = \frac{120}{60} \text{ revolutions per second} = 2 \text{ rev/s}$.Substituting the value of $n$ into the formula:$\omega = 2\pi \times 2 = 4\pi \, rad/s$.Therefore,the correct option is $C$.

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

Medium

The angular velocity of a flywheel making $120$ revolutions per minute is:

A
$\pi \, rad/s$
B
$2\pi \, rad/s$
C
$4\pi \, rad/s$
D
$4\pi^2 \, rad/s$

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3-2.Motion in Plane

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Angular Variables and Basic of Uniform Circular Motion

$A$ particle $P$ moves in a circle of radius $a$ with a constant speed $v$. $C$ is the center of the circle,and $AB$ is a diameter. When the particle passes through point $B$,what is the ratio of its angular velocity with respect to $A$ and $C$ respectively?

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State the $SI$ units of angular velocity and angular acceleration.

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$A$ cycle wheel of radius $0.4\ m$ completes one revolution in one second. Then,the acceleration of a point on the rim of the cycle wheel will be:

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Consider an object making uniform motion around a circle of radius $5 \ m$ with tangential velocity $2 \ ms^{-1}$. The time it takes to complete $2$ revolutions and the magnitude of acceleration respectively are

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$A$ point $P$ is moving in uniform circular motion with radius $3 \ m$. Let at some instant the acceleration of the point be $a = (6 \hat{i} - 4 \hat{j}) \ m/s^2$,the position vector be $r$,and the velocity vector be $v$. Choose the correct statement.

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The angular velocity of a flywheel making $120$ revolutions per minute is:

Similar Questions

$A$ particle $P$ moves in a circle of radius $a$ with a constant speed $v$. $C$ is the center of the circle,and $AB$ is a diameter. When the particle passes through point $B$,what is the ratio of its angular velocity with respect to $A$ and $C$ respectively?

State the $SI$ units of angular velocity and angular acceleration.

$A$ cycle wheel of radius $0.4\ m$ completes one revolution in one second. Then,the acceleration of a point on the rim of the cycle wheel will be:

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$A$ point $P$ is moving in uniform circular motion with radius $3 \ m$. Let at some instant the acceleration of the point be $a = (6 \hat{i} - 4 \hat{j}) \ m/s^2$,the position vector be $r$,and the velocity vector be $v$. Choose the correct statement.

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