A continuous conveyor belt passes over two discs A and B of radii $R$ and $4 R$ respectively. They start from rest. A has an angular acceleration of $\frac{π}{4} r a d / s^{2}$ What is the angular velocity( $ω_{2}$ ) of disc B at the end of $32 s e c$ ?

Open in App

Solution

Step 1: Given data-
Radius of disc A, $R_{1} = R$
The radius of disc B, $R_{2} = 4 R$
Angular acceleration of A, $α = \frac{π}{4} r a d / s^{2}$
Time, $t = 32 s$
Step 2: To find
The angular velocity( $ω_{2}$ ) of disc B at the end of $32 s e c$
Step 3: Calculation
According to equations of kinematics,
$ω = α t ω = A n g u l a r v e l o c i t y α = A n g u l a r a c c e l e r a t i o n t = t i m e$
$ω_{1} = \frac{π}{4} \times 32 = 8 π r a d / s$
The linear velocity of the belt at A,
$v = r ω v = l i n e a r v e l o c i t y ω = a n g u l a r v e l o c i t y r = r a d i u s o f d i s c$
$v = R_{1} ω_{1} = 8 π R$
Since the velocity of the belt is constant as both the disc are moving with the same linear velocity as the velocity of the belt.
Velocity at disc B will be equal to the velocity at disc A
$v = R_{2} ω_{2}$
$ω_{2} = \frac{v}{R_{2}} = \frac{8 π R}{4 R} = 2 π r a d / s^{}$
Thus, the angular velocity of disc B at the end of $32$ seconds is $2 π r a d / s$ .

Suggest Corrections

Similar questions

Q. A disc is having an initial angular velocity of

4 rad/sec

and angular acceleration of

8 {rad/sec}^{2}

. Find the angle rotated (in radian) by disc in

3 sec

Q. A grindstone starts from rest and has a constant-angular acceleration of

4.0 r a d / s e c^{2}

. The angular displacement and angular velocity, after

4 s e c

will respectively be

A disc rotates about its axis with a constant angular acceleration of 4 rad/s $^{2}$ . Find the radial and tangential accelerations of a particle at a distance of 1 cm from the axis at the end of the first second after the disc starts rotating.

Q. A point on the rim of a disc starts circular motion from rest and after time

t

, it gains an angular acceleration given by

α = 3 t - t^{2}

. The angular velocity after

2 sec

is:

Q. A uniform disc of radius

r

spins with angular velocity

ω

and angular acceleration

α

. If the centre of mass of the disc has linear acceleration

a

, find the magnitude and direction of acceleration of the points 1,2 and 3

Join BYJU'S Learning Program

A continuous conveyor belt passes over two discs A and B of radii R and 4R respectively. They start from rest. A has an angular acceleration of π4rad/s2 What is the angular velocity(ω2) of disc B at the end of 32sec?

A continuous conveyor belt passes over two discs A and B of radii $R$ and $4 R$ respectively. They start from rest. A has an angular acceleration of $\frac{π}{4} r a d / s^{2}$ What is the angular velocity( $ω_{2}$ ) of disc B at the end of $32 s e c$ ?