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Test: Centre of Mass - NEET MCQ


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25 Questions MCQ Test Physics Class 11 - Test: Centre of Mass

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Test: Centre of Mass - Question 1

There are two objects of masses 1 kg and 2 kg located at (1, 2) and (-1, 3) respectively. The coordinates of the centre of mass are

Detailed Solution for Test: Centre of Mass - Question 1

Body A has mass of 1kg and location (1,2)
Body B has mass of 2kg and location (-1,3)

mcxc = m1x1 + m2x2
(1+2) xc = (1 * 1) + (2 * -1)
xc  = -1/3

Similarly,
mcyc = m1y1 + m2y2
(1 + 2) yc = (1 * 2) + (2 * 3)
yc= 8/3

Hence, the coordinates of the center of mass are (-1/3, 8/3).

Test: Centre of Mass - Question 2

The motion of a potter’s wheel is an example of

Detailed Solution for Test: Centre of Mass - Question 2

Potter’s wheel is an example of rotary motion. Rotary motion is that kind of motion in which body of the mass moves along a circular path about an axis which remains fixed.

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Test: Centre of Mass - Question 3

The general motion of a rigid body consists of

Detailed Solution for Test: Centre of Mass - Question 3

The general motion of a rigid body consists of both, translational and rotational motion. This is much obvious as it is seen all around us.

Test: Centre of Mass - Question 4

A rigid body is one

Detailed Solution for Test: Centre of Mass - Question 4

A body is said to be a rigid body if the body remains in its original shape even under the influence of external force. We can also say that if distance between two points of the body does not change with time regardless of external forces exerted on it, then the body is said to be a rigid body.

Test: Centre of Mass - Question 5

If a shell at rest explodes then the centre of mass of the fragments

Detailed Solution for Test: Centre of Mass - Question 5

As a shell explosion is not governed by any external force, we get that no external force acts upon the shell, and hence it remains at rest.

Test: Centre of Mass - Question 6

A child sits stationary at one end of long trolley moving uniformly with speed v on a smooth horizontal floor. If the child gets up and runs about on the trolley in the forward direction with speed u. The centre of mass of the system (child + trolley) will move with speed

Detailed Solution for Test: Centre of Mass - Question 6

The child is running arbitrarily on a trolley moving with velocity v.
However, the running of the child will produce no effect on the velocity of the centre of mass of the trolley.
This is because the force due to the boy’s motion is purely internal.

Internal forces produce no effect on the motion of the bodies on which they act.

Since no external force is involved in the boy–trolley system, the boy’s motion will produce no change in the velocity of the centre of mass of the trolley.

Test: Centre of Mass - Question 7

There are some passengers inside a stationary railway compartment. The centre of masses of the compartment itself(without the passengers) is C1, while the centre of mass of the compartment plus passengers’ system is C2. if the passengers moves about inside the compartment

Detailed Solution for Test: Centre of Mass - Question 7

When net Fexternal​=0, then the centre of mass of the system remains at rest.

Thus if the passenger move inside the compartment which donot require any external force, so the centre of mass of the "passenger + compartment" system must remain at rest and hence C2​ will be fixed w.r.t ground.

Also due to the movement of the passenger, the position of centre of mass of the passengers only will change, thus C1​ will have to move in such a way that C2​ may remain fixed w.r.t ground.

Test: Centre of Mass - Question 8

If a man of mass M jumps to the ground from height h and his centre of mass moves a distance x in the time taken by him to hit the ground, the average force acting on him is (assuming his retardation to be constant during his impact with the ground)

Detailed Solution for Test: Centre of Mass - Question 8

As the center of mass moves through a distance x, the average force F acting on the man is calculated from :
Work done = Change in potential energy
⇒ Fx = Mgh
⇒ F = 

Test: Centre of Mass - Question 9

The centre of mass of a body is located

Detailed Solution for Test: Centre of Mass - Question 9

The centre of mass of a body can lie within or outside the body.
Example
(i)
Centre of mass of a uniform rod lies at its geometrical centre which lies within the rod
(ii) Centre of mass of a uniform ring lies at its geometrical centre which lies outside the ring.

Test: Centre of Mass - Question 10

When a shell was following a parabolic path in the air, it explodes somewhere in its flight. The center of mass of fragments will continue to move in

Detailed Solution for Test: Centre of Mass - Question 10

The internal forces have no effect on the trajectory of the center of mass, and the forces due to explosion are the internal forces. So the center of mass will follow the same parabolic path even after the explosion.

Test: Centre of Mass - Question 11

 A mass m is moving with a constant velocity along a line parallel to the x-axis, away from the origin. Its angular momentum with respect to the origin

Detailed Solution for Test: Centre of Mass - Question 11

Angular momentum (L) is defined as the distance of the object from a rotation axis multiplied by the linear momentum
L = mv×y

As the particle moves, m; v; and y, all remain unchanged at any point of time
⇒ L = constant

Test: Centre of Mass - Question 12

Every point in a rotating rigid body has the same __________at any instant of time.

Detailed Solution for Test: Centre of Mass - Question 12

Every point in any rigid rotating object is rotating at the same angular velocity. However, there are a few cases where people have used the term "angular velocity" when they really meant tangential velocity, so you do have to be careful.

Test: Centre of Mass - Question 13

An isolated particle of mass m is moving in a horizontal plane (x,y) along the x axis at a certain height above the ground. It suddenly explodes into two fragments of masses m/4 and 3m/4. An instant later, the smaller fragments is at y = +15 cm. The larger fragment at this instant is at

Detailed Solution for Test: Centre of Mass - Question 13

As the particle is exploded only due to its internal energy.
net external force during this process is 0 i.e. center mass will not change.

Let the particle while the explosion was above the origin of the coordinate system i.e. just before explosion xcm =0 and ycm =0

After the explosion, the Centre of mass will be at xcm =0 and ycm =0

Since smaller fragment has fallen on the y-axis.
Let positon of larger fragment be y.

m * ycm = (m/4 * 15) + (3m/4 * y)
⇒ (m/4 * 15) + (3m/4 * y) = 0
⇒ y = - 5 cm

Test: Centre of Mass - Question 14

The centre of mass of a system of particles does not depend on

Detailed Solution for Test: Centre of Mass - Question 14

The resultant of all forces, on any system of particles, is zero. Therefore, their centre of mass does not depend upon the forces acting on the particles.

Test: Centre of Mass - Question 15

If the net force acting on the system of particles is zero, then which of the following may vary

Detailed Solution for Test: Centre of Mass - Question 15
  • Given that the net external forces acting on the system of particles is zero. That is, the sum of all forces acting on the body is zero.
  • There may be various forces acting on a body like the gravitational force, frictional force and forces due to electric field, gravitational field etc. Here the sum of various forces acting on the body is zero. Hence we can say that the acceleration acting on the body is zero according to Newton’s second law. Thus the velocity remains constant here. As the velocity is constant momentum also remains constant as it is the product of mass and velocity.
  • But for a system of particles the net force acting on it is zero. Then the acceleration on the body will be zero. The velocity of particles other than the centre of mass is not zero because of internal forces. But the velocity of the centre of mass is constant.
  • Initially the particle is at rest. Hence it requires some external force to start its motion. But if it is moving with uniform velocity and the net external force is zero. Then the acceleration acting on the body is zero. Hence it continues its motion with constant velocity. That means, it changes its position with varying time.
Test: Centre of Mass - Question 16

If three balls of same radius are placed touching each other on a horizontal surface such that they will form an equilateral triangle, when their centers are joined. What will be the position of the centre of mass of the system?

Detailed Solution for Test: Centre of Mass - Question 16

The COM will be at the intersection point of the medians as that is the most symmetric point of this symmetric system.

Test: Centre of Mass - Question 17

When external forces acting on a body are zero, then its centre of mass

Detailed Solution for Test: Centre of Mass - Question 17

When force acting upon the body results zero, the resulting acceleration due to net force applied is also zero, and hence by the law of inertia the motion of the body either at rest or constant velocity wont change.

Test: Centre of Mass - Question 18

Two blocks of the masses 10 kg and 4 kg are connected by a spring of negligible mass and placed on a frictionless horizontal surface. An impulse gives a velocity of 14 m/s to the heavier block. The velocity of centre of mass is

Detailed Solution for Test: Centre of Mass - Question 18

Velocity of heavier block (v2) = 14m/s
Velocity of lighter block (v1) = 0m/s
Velocity of centre of mass,

Test: Centre of Mass - Question 19

The sum of moments of masses of all the particles in a system about the centre of mass is always:

Detailed Solution for Test: Centre of Mass - Question 19

Using, 

Let origin be the centre of mass of the body which is represented by C i.e. r = 0
⟹ m1r+ m2​r+ m3r= 0

Now net moment about C,
τC = (m1g) * r1 + (m2g) * r+ (m3g) * r3
τC = g [m1r+ m2​r+ m3r3] = 0

Hence, the sum of moment of masses of all the particles in the system about COM is always Zero

Test: Centre of Mass - Question 20

In a CO molecule, the distance between carbon and oxygen atom is 0.12 nm. What is the distance of centre of mass from the carbon atom?

Detailed Solution for Test: Centre of Mass - Question 20

The distance of centre of mass from carbon atom, 

Test: Centre of Mass - Question 21

For an object with the centre of mass at the origin, the x-coordinates of particles of the object _____.

Detailed Solution for Test: Centre of Mass - Question 21
  • For an object to have the x-coordinate of its centre of mass, there should be particles on both the negative and positive coordinates of the plane for the sum to be zero.
  • However, for 1-dimensional particles that all lie on the y-axis symmetric about the x-axis, the x-coordinate is zero – which is neither positive nor negative, i.e., non-negative.
Test: Centre of Mass - Question 22

Masses 1 kg, 1.5 kg, 2 kg, and “M” kg are situated at (2,1,1), (1,2,1), (2,-2,1) and (-1,4,3). What is the value of “M” if their centre of mass is at (1,1,3/2)?

Detailed Solution for Test: Centre of Mass - Question 22

Sum of masses = 1 + 1.5 + 2 + M = 4.5 + M
x-coordinate;
(1*2 + 1.5*1 + 2*2 – M)/(4.5 + M) = 1
4.5 + M = 7.5 – M
2M = 3
M = 1.5 kg.

Test: Centre of Mass - Question 23

Three identical spheres each of radius R are placed such that their centres lie on a straight line. What is the location of their centre of mass from the centre of the first sphere?

Detailed Solution for Test: Centre of Mass - Question 23
  • Distance between first and last sphere = R + 2R + R = 4R
  • Since the spheres are identical and lie in a straight line, the centre of mass will lie exactly in the middle.
  • Hence the centre of mass lies at a distance of 2R from the centre of the first sphere.
Test: Centre of Mass - Question 24

For which of the following does the centre of mass lie outside the body?

Detailed Solution for Test: Centre of Mass - Question 24
  • The centre of mass of a bangle lies at its geometric centre which does not lie on or in the object.
  • Hence the centre of mass of a bangle lies outside the body.
Test: Centre of Mass - Question 25

The centre of masses of two particles with masses 2 kg and 1 kg located at (1,0,1) and (2,2,0) is located at:

Detailed Solution for Test: Centre of Mass - Question 25

Sum of masses = 2 + 1 = 3
x-coordinate;
(2*1 + 1*2)/3 = 4/3
y-coordinate;
(2*0 + 1*2)/3 = 2/3
z-coordinate;
(2*1 + 1*0)/3 = 2/3.

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