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CBSE

NEET Physics : System of Particles and Rotational Motion

Multiple Choice Questions

141.

Sphere, disc and ring are allowed to roll down on an inclined plane from its top, then order in which they reach at the bottom will be

ring, disc, sphere
sphere, disc, ring
disc, ring, sphere
sphere, ring, disc

142.

A system consists of two point masses M and m (< M). The centre of mass of the system is

at the middle of m and M
nearer to M
nearer to m
at the position of large mass

143.

The centre of mass of three particles of mass m₁= 1.0 kg, m₂ = 2.0 kg, and m₃ = 3.0 kg at the corners of an equilateral triangle 1.0 m on a side, as shown in figure

$(\frac{7}{12} m, \frac{\sqrt{3}}{4} m)$
$(\frac{5}{12} m, \frac{\sqrt{3}}{5} m)$
$(\frac{5}{13} m, \frac{\sqrt{3}}{5} m)$
$(\frac{8}{12} m, \frac{\sqrt{3}}{5} m)$

144.

Angular velocity of second hand of a clock is

$\frac{π}{30} rad / s$
$\frac{π}{60} rad / s$
$\frac{π}{15} rad / s$
$\frac{π}{2} rad / s$

145.

Two perfectly elastic particles A and B of equal masses travelling along the line joining, them with velocity 15 m/s and 20 m/s respectively collide. Their velocities after the elastic collision will be (in m/s) respectively.

0 and 25
5 and 20
10 and 15
20 and 15

146.

The moments of inertia of two freely rotating bodies A and B are I_A and I_B respectively I_A > I_B and their angular momenta are equal. If K_A and K_B are their kinetic energies then

K_A = K_B
K_A > K_B
K_A < K_B
K_A = 2 K_B

147.

If the equation for the displacement of a particle moving on a circular path is given by θ = 2 t³+ 0.5, where θ is in radian and t in second, then the angular velocity of the particle after 2 s from its start is

8 rad/s
12 rad/s
24 rad/s
36 rad/s

148.

A circular disc X of radius R is made from an iron plate of thickness t, and another disc Y of radius 4R is made from an iron plate of thickness t/4. Then the relation between the moments of inertia I_X and I_Y is

I_Y = 321_X
I_Y = 161_X
I_Y = I_X
I_Y = 641_X

149.

If the earth is treated as a sphere of radius R and mass M, its angular momentum about the axis of rotation with time period T is

$\frac{{πMR}^{2}}{T}$
$\frac{{MR}^{2} T}{2 π}$
$\frac{2 {πMR}^{2}}{T}$
$\frac{4 {πMR}^{2}}{5 T}$

150.

If we made half the radius of earth, then duration of day will become

6 h
12 h
24 h
3 h

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NEET Physics : System of Particles and Rotational Motion

Multiple Choice Questions