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Circular Motion MCQ Level - 2 - Physics MCQ


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10 Questions MCQ Test - Circular Motion MCQ Level - 2

Circular Motion MCQ Level - 2 for Physics 2024 is part of Physics preparation. The Circular Motion MCQ Level - 2 questions and answers have been prepared according to the Physics exam syllabus.The Circular Motion MCQ Level - 2 MCQs are made for Physics 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Circular Motion MCQ Level - 2 below.
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Circular Motion MCQ Level - 2 - Question 1

A particle initially at rest starts moving from point A on the surface of a fixed smooth hemisphere of radius r as shown. The particle looses its contact with hemisphere at point BC is centre of the hemisphere. The equation relating  α and  β is :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 1

Let v be the speed of particle of B, just when it is about to loose contact.
From application of Newton's second law to the particle normal to the spherical surface.

Applying conservation of energy as the block moves from A to B.

Solving 1 and 2 we get

The correct answer is:  

Circular Motion MCQ Level - 2 - Question 2

A bob is attached to one end of a string other end of which is fixed at peg A. The bob is taken to a position where string makes an angle of 30° with the horizontal. On the circular path of the bob in vertical plane there is a peg ‘B’ at a symmetrical position with respect to the position of release as shown in the figure. If vc and va be the minimum speeds in clockwise and anticlockwise directions respectively, given to the bob in order to hit the peg ‘B’ then ratio vc : va is equal to :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 2

For anti-clockwise motion, speed at the highest point should be  Conserving energy at (1) and (2) :

For clock-wise motion, the bob must have atleast that much speed initially, so that the string must not become loose any where until it reaches the peg B.

At the initial position :

vc being the initial speed in clockwise direction.
For Vc min : Put T = 0;

The correct answer is: (1 : 2)

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Circular Motion MCQ Level - 2 - Question 3

The sphere at P is given a downward velocity v0 and swings in a vertical plane at the end of a rope of l = 1m  attached to a support at O. The rope breaks at angle 30° from horizontal, knowing that it can withstand a maximum tension equal to three times the weight of the sphere. Then the value of v0 will be : (g = π2 m/s)

Detailed Solution for Circular Motion MCQ Level - 2 - Question 3

The correct answer is: 

Circular Motion MCQ Level - 2 - Question 4

A simple pendulum is oscillating in a vertical plane. If resultant acceleration of bob of mass m at a point A is in horizontal direction, find the tangential force at this point in terms of tension T and mg.

Detailed Solution for Circular Motion MCQ Level - 2 - Question 4

When the acceleration of bob is horizontal, net vertical force on the bob will be zero.


The tangential force at that instant is

The correct answer is:  

Circular Motion MCQ Level - 2 - Question 5

A uniform rod of mass m and length l is rotating with constant angular velocity ω about an axis which passes through its one end and perpendicular to the length of rod. The area of cross section of the rod is A and its Young’s modulus is Y. Neglect gravity. The strain at the mid point of the rod is :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 5


Circular Motion MCQ Level - 2 - Question 6

A small coin of mass 40 g is placed on the horizontal surface of a rotating disc. The disc starts from rest and is given a constant angular acceleration α = 2 rad/s2.  The coefficient of static friction between the coin and the disc is µs = 3/4 and coefficient of kinetic friction µk = 0.5. The coin is placed at a distance r = 1m from the centre of the disc. The magnitude of the resultant force on the coin exerted by the disc just before it starts slipping on the disc is :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 6

The friction force on coin just before coin is to slip will be : f = µs mg
Normal reaction on the coin N = mg
The resultant reaction by disk to the coin is 


The correct answer is: 0.5 N

Circular Motion MCQ Level - 2 - Question 7

Objects A and B each of mass are connected by light inextensible cord. They are constrained to move on a frictionless ring in a vertical plane as shown in figure. The objects are released from rest at the positions shown. The tension in the cord just after release will be :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 7

From length constraint on AB

a = b

mg – ma = ma
2ma = mg
a = g/2

The correct answer is: 

Circular Motion MCQ Level - 2 - Question 8

A disc of radius R has a light pole fixed perpendicular to the disc at the circumference which in turn has a pendulum of length R attached to its other end as shown in figure. The disc is rotated with a constant angular velocity ω. The string is making an angle 30° with the rod. Then the angular velocity ω of disc is :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 8

The bob of the pendulum moves in a circle of radius 

Circular Motion MCQ Level - 2 - Question 9

A bead of mass m is located on a parabolic wire with its axis vertical and vertex at the origin as shown in figure and whose equation is x2 = 4ay. The wire frame is fixed and the bead can slide on it without friction. The bead is released from the point y = 4a on the wire frame from rest. The tangential acceleration of the bead when it reaches the position given by y = a is :

Detailed Solution for Circular Motion MCQ Level - 2 - Question 9

x = 4ay
Differentiating w.r.t. y, we get

the component of weight along tangential direction is mg sin θ
hence tangential acceleration is 
The correct answer is: 

Circular Motion MCQ Level - 2 - Question 10

A weight W attached to the end of a flexible rope of diameter d = 0.75 cm is raised vertically by winding the rope on a reel as shown. If the reel is turned uniformly at the rate of 2 r.p.s. What is the tension in rope. The inertia of rope may be neglected.

Detailed Solution for Circular Motion MCQ Level - 2 - Question 10

As tangential acceleration a = dv/dt = ωdr/dt
but ω = 4π and dr / dt = 1.5 (reel is turned uniformly at the rate of 2 r.p.s.)
∴ a = 6π

Now by the F.B.D. of the mass


∴   T = W (1 + a / g)
Put a = 6π
∴  T = 0.19W
The correct answer is: 1.019 W

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