Question:
A coin placed on a rotating turntable just slips, if it is placed at a distance of $8\, cm$ from the centre. If angular speed of the turntable is doubled, it will just slip at a distance of:
A coin placed on a rotating turntable just slips, if it is placed at a distance of $8\, cm$ from the centre. If angular speed of the turntable is doubled, it will just slip at a distance of:
Updated On: Jan 10, 2024
- 1 cm
- 2 cm
- 4 cm
- 8 cm
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The Correct Option is B
Solution and Explanation
A body placed on a non-inertial frame of reference which is rotating about its axis, experiences a centrifugal force.
It is given by $F=m r \omega^{2}$
where $r$ is radius of circle, $m$ is mass and co is angular speed.
$\therefore \frac{F_{1}}{F_{2}}=\frac{r_{1} \omega_{1}^{2}}{r_{2} \omega_{2}^{2}}$
Since, $F_{1}=F_{2}$
$\Rightarrow r_{1} \omega_{1}^{2}=r_{2} \omega_{2}^{2}$
$\Rightarrow r_{2}=\frac{r_{1} \omega_{1}^{2}}{\omega_{2}^{2}}$
Given, $r_{1}=8\, cm,\, \omega_{1}=\omega,\, \omega_{2}=2\, \omega$
$\therefore r_{2}=\frac{8 \times \omega^{2}}{(2 \omega)^{2}}$
$=\frac{8}{4}=2\, cm$
It is given by $F=m r \omega^{2}$
where $r$ is radius of circle, $m$ is mass and co is angular speed.
$\therefore \frac{F_{1}}{F_{2}}=\frac{r_{1} \omega_{1}^{2}}{r_{2} \omega_{2}^{2}}$
Since, $F_{1}=F_{2}$
$\Rightarrow r_{1} \omega_{1}^{2}=r_{2} \omega_{2}^{2}$
$\Rightarrow r_{2}=\frac{r_{1} \omega_{1}^{2}}{\omega_{2}^{2}}$
Given, $r_{1}=8\, cm,\, \omega_{1}=\omega,\, \omega_{2}=2\, \omega$
$\therefore r_{2}=\frac{8 \times \omega^{2}}{(2 \omega)^{2}}$
$=\frac{8}{4}=2\, cm$
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Concepts Used:
Motion in a Plane
It is a vector quantity. A vector quantity is a quantity having both magnitude and direction. Speed is a scalar quantity and it is a quantity having a magnitude only. Motion in a plane is also known as motion in two dimensions.
Equations of Plane Motion
The equations of motion in a straight line are:
v=u+at
s=ut+½ at2
v2-u2=2as
Where,
- v = final velocity of the particle
- u = initial velocity of the particle
- s = displacement of the particle
- a = acceleration of the particle
- t = the time interval in which the particle is in consideration