always act on two different bodies

explains the way the force acts on a body

defines the force qualitatively

defines the force quantitatively

MCQ Questions for Class 11 Engineering Physics Laws Of Motion Quiz 1

A uniform rod $$AB$$ is suspended from a point $$X$$, at a variable distance $$x$$ from $$A$$, as shown. To make the rod horizontal, a mass $$m$$ is suspended from its end $$A$$. A set of $$(m,x)$$ values is recorded. The appropriate variables that give a straight line, when plotted, are:

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$$m,\cfrac { 1 }{ x } $$
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$$m,\cfrac { 1 }{ { x }^{ 2 } } $$
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$$m,x$$
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$$m,{ x }^{ 2 }$$

A beaker of radius r is filled with water (refractive index $$\dfrac{4}{3}$$) up to a height H as shown in the figure on the left. The beaker is kept on a horizontal table rotating with angular speed $$\omega$$. This This makes the water surface curved so that the difference in the height of water level at the center and at the circumference of the beaker is $$h (h << H, h << r)$$, as shown in the figure on the right. Take this surface to be approximately spherical with a radius of curvature R. Which of the following is/are correct? (g is the acceleration due to gravity)

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$$R = \dfrac{h^2 + r^2}{2h}$$
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$$R = \dfrac{3r^2 }{2h}$$
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Apparent depth of the bottom of the beaker is close to $$\dfrac{3H}{2} \left(1 + \dfrac{\omega^2 H}{2g} \right)^{-1}$$
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Apparent depth of the bottom of the beaker is close to $$\dfrac{3H}{4} \left(1 + \dfrac{\omega^2 H}{4g} \right)^{-1}$$

What is the minimum velocity with which a body of mass $$m$$ must enter a vertical loop of radius $$R$$ so that it can complete the loop?

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$$\sqrt{gR}$$
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$$\sqrt{2gR}$$
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$$\sqrt{3gR}$$
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$$\sqrt{5gR}$$

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Both Assertion and Reason are correct and Reason is the correct explanation for Assertion
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Both Assertion and Reason are correct but Reason is not the correct explanation for Assertion
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Assertion is correct but Reason is incorrect
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Both Assertion and Reason are incorrect

A ball is suspended by a thread of length L at the point O on a wall which is inclined to the vertical by $$\alpha$$. The thread with the ball is displaced by a small angle $$\beta$$ away from the vertical and also away from the wall. If the ball is released, the period of oscillation of the pendulum when $$\beta > \alpha$$ will be

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$$\displaystyle \sqrt{\frac{L}{g}}\left[\pi+2sin^{-1}\frac{\alpha}{\beta}\right]$$
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$$\displaystyle \sqrt{\frac{L}{g}}\left[\pi-2sin^{-1}\frac{\alpha}{\beta}\right]$$
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$$\displaystyle \sqrt{\frac{L}{g}}\left[2sin^{-1}\frac{\alpha}{\beta}-\pi\right]$$
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$$\displaystyle \sqrt{\frac{L}{g}}\left[2sin^{-1}\frac{\alpha}{\beta}+\pi\right]$$

An object placed on a ground is in stable equilibrium. If the objects is given a slight push, then initially the position of centre of gravity:

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moves nearer to ground
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rises higher above the ground
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remains as such
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may remain at same level

Cleaning of dust from carpet is due to _____.

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Inertia of motion
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Inertia of rest
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Inertia of direction
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Momentum

A ball of mass 'm' moves normal to a wall with a velocity 'u' and rebounds with the same speed. The change in momentum of the ball during the rebounding is

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2mu towards the wall
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2mu away from the wall
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zero
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mu away from the wall

When an athlete takes part in a long jump he runs for a while and then jumps. This is because:

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inertia of motion helps him to take a longer jump.
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running for a time makes him alert.
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it helps him to focus on the point of jump.
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he can apply more force for the jump after running.

Statement A: If the force varies with time then the net force is measured by the total change in momentum of the body.
Statement B: Change in momentum and impulsive force are numerically equal.

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A & B are correct
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A & B are wrong
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A is correct and B is wrong
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A is wrong and B is correct

Which of following Newton's laws reveals the underlying symmetry in the forces that occur in nature?

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First law
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Second law
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Third law
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Law of gravitation

When a moving body is suddenly stopped, then:

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Frictional force increases.
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Friction force remains same as it was while the car was moving.
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Friction force reduces but has a non zero value.
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Frictional force reduces to zero as it is a self adjusting force.

When a body is in equilibrium, which of the following must be true ?

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There is no force acting on it.
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The sum of all the forces acting on it must be zero.
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The sum of all the forces acting on it is not equal to zero.
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There are exactly two forces acting on the body.

Impulse is equal to

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momentum
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change in momentum
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rate of change of momentum
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rate of change of force

A stone tied to a string is rotated in a vertical circle. The minimum speed with which the stone has to be rotated in order to complete the circle :

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decreases with increasing the mass of the stone
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is independent of the mass of the stone
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decreases with increasing the length of the string
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is independent of the length of the string

Action and reaction

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always act on two different bodies
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are equal in magnitude
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act in opposite directions
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All the above

In which of the following cases the net force is not equal to zero?

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A kite skillfully held stationary in the sky.
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A ball falling freely from a height.
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A helicopter hovering above the ground.
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A cork floating on the surface of water.

The impulse of a body is equal to :

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Rate of change of its momentum.
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Change in its momentum.
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The product of force applied on it and the time of application of the force.
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Both (B) and (C)

Which of the following statements are correct regarding linear momentum of a body?

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It is a measure of quantity of motion contained by the body.
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Change in momentum is the measurement of impulse.
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Impulse and acceleration act in same direction to the change in momentum.
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Incase of uniform circular motion, the linear momentum is conserved.

Which of the following statements are true?

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When the mass of a body is doubled then the momentum of a body is also doubled, provided the body maintains the same velocity.
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We feel pain in the hand on hitting the wall, this is a consequence of Newton's third law of motion.
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A table cloth can be pulled from a table without dislodging the dishes. This is due to inertia of rest.
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Momentum is a vector quantity.

The average force necessary to stop a hammer with 25 N-s momentum in 0.05s expressed in N is :

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500
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125
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50
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250

....................... is a self adjusting force.

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Magnetic Force
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Electrostatic Force
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Frictional Force
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All

Newton's first law of motion gives the concept of inertia.

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True
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False

If two balls each of mass 0.6 kg moving in opposite directions with speed of 4 m s$$^{-1}$$ collide and rebound with same speed, then the impulse imparted to each ball due to other is:

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$$0.48 kg m s^{-1}$$
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$$0.53 kg m s^{-1}$$
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$$0.81 kg m s^{-1}$$
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$$0.92 kg m s^{-1}$$

The time, in which a force of 2 N produces a change as momentum of 0.4 kg m s$$^{-1}$$ in the body is :

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0.2s
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0.02s
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0.5s
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0.05s

A hammer of mass 5 kg moving with a speed of 2 m s$$^{-1}$$ strikes the head of a nail driving it 20 cm into the wall. Find the impulse.

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10 N s
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20 N s
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30 N s
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40 N s

A ball tied to a string is swung in a vertical circle. Which of the following remains constant?

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Tension in the string.
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Speed of the ball.
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Centripetal force.
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Earth's pull on the ball.

Newton's third law:

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defines the force qualitatively
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defines the force quantitatively
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explains the way the force acts on a body
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gives the direction of force

The linear momentum of a ball of mass $$50 g$$ is $$0.5 kg { m s }^{ -1 }$$. Find its velocity.

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$$0.01$$ $${ m s }^{ -1 }$$
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$$1$$ $${ m s }^{ -1 }$$
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$$5$$ $${ m s }^{ -1 }$$
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$$10$$ $${ m s }^{ -1 }$$

'The action and reaction are equal in magnitude'. Is this statement true and which law is related with it ?

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Yes, Newton's second law.
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Yes, Newton's third law.
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No, Newton's third law.
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Yes, Newton's first law.

A metal ball does not rebound when struck on a wall, whereas a rubber ball of same mass when thrown with the same velocity on the wall rebounds. From this it is inferred that:

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change in momentum is same in both.
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change in momentum in rubber ball is more.
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change in momentum in metal ball is more.
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initial momentum of metal ball is more than that of rubber ball.

A body of mass $$5 kg$$ is moving with velocity $$2 { ms }^{ -1 }$$. Calculate its linear momentum.

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$$2.5$$ $$kg$$ $${ ms }^{ -1 }$$
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$$10$$ $$kg$$ $${ ms }^{ -1 }$$
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$$5$$ $$kg$$ $${ ms }^{ -1 }$$
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$$20$$ $$kg$$ $${ ms }^{ -1 }$$

Momentum is most closely related to :

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force
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impulse
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KE
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power

A gun requiring the support of shoulder shows intensive recoil when fired with:

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the butt held tightly with the shoulder.
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the butt held loosely against the shoulder.
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butt held loosely or tightly against the shoulder.
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a bullet of greater mass.

The SI unit of momentum is :

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$$kg ms^{-1}$$
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$$kg m s^{-2}$$
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$$kg m s^{2}$$
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$$kg m^{-1}s^{-1}$$

Frictional force always reduces:

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Speed
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Velocity
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Acceleration
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Time

The maximum force of friction when the body is just begining to move is known as the

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Limiting friction
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Rolling friction
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Kinetic friction
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(1) and (2) both

If the net force on an object is zero, then the object:

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is in equilibrium
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is not in equilibrium
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may or may not be in equilibrium
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always has zero mass

State whether given statement is True or False.
Force never exists in pairs.

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True
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False

Frictional force always opposes:

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The state of rest
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The state of motion
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None of the above
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Both the states

A force of $$10 N$$ acts on a body of mass $$20 kg$$ for $$10 s$$ .Change in its momentum is:

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$$5 kg m/s$$
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$$100 kg m/s$$
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$$200 kg m/s$$
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$$1000 kg m/s$$

You are on a frictionless horizontal plane. You can get off the plane :

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by jumping
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by throwing some pieces of stone
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by rolling your body on the surface
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by running on the plane

State whether given statement is True or False.
An object moving on a frictionless horizontal surface should move with constant velocity

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True
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False

The force of friction on a stationary body on a rough surface________

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will always be zero
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might be zero
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will be equal to the force of gravity
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will be positive

The momentum of a 10 kg body moving at 36 km/h is:

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100 kg.m/s
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360 kg. m/s
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3.6 kg.m/s
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36000 kg .m /s

Momentum is a measure of

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Weight
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Mass
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Quantity of motion
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Velocity

The combined effect of mass and velocity is taken into account by a physical quantity called :

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torque
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moment of force
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momentum
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moment of momentum

A metallic ball strikes a wall and falls down whereas a tennis ball having the same mass and velocity bounces back. The conclusion from this is that :

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Both suffer equal change in momentum
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The tennis ball suffers a greater change in momentum
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Metallic ball suffers a greater change in momentum
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The momentum of the tennis ball is less than that of the metallic ball

Impulse is a scalar quantity. State true or false.

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True
0%
False

Newton's first law of motion is also called Galileo's law of:

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Conservation of momentum
0%
Inertia
0%
Friction
0%
Conservation of mass

CBSE Questions for Class 11 Engineering Physics Laws Of Motion Quiz 1 - MCQExams.com

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Practice Class 11 Engineering Physics Quiz Questions and Answers

CBSE Questions for Class 11 Engineering Physics Laws Of Motion Quiz 1 - MCQExams.com

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Practice Class 11 Engineering Physics Quiz Questions and Answers

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