A 60 kg man stands on a spring scale in a lift. At some instant, he finds that the scale reading has changed from 60 kg to 50 kg for a while and then comes back to original mark. What should be concluded?

The lift while in motion upward suddenly stopped.

The lift was in constant motion upward.

The lift was in constant motion downward.

The lift while in motion downward suddenly stopped.

MEDIUM

JEE Advanced

IMPORTANT

Earn 100

Three blocks $A, B$ and $C$ are suspended as shown in figure. Mass of each of blocks $A$ and $B$ is $m$ . If system is in equilibrium and mass of $C$ is $M$ , then:

50% studentsanswered this correctly

Important Questions on Newton's Laws of Motion (Without Friction)

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 10

Block $B$ has mass $m$ and is released from rest when it is on top of wedge $A$ which has a mass $3 m$ . Determine the tension in cord $C D$ needed to hold the wedge from moving while $B$ is sliding down $A$ . Neglect function.

Question Image

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 11

Two particles $A$ and $B$ each of mass $m$ are kept stationary by applying a horizontal force $F = m g$ on particle $B$ as shown in the figure. Then

Question Image

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 12

The given figure represents a light inextensible string $A B C D E$ in which $A B = B C = C D = D E$ and to which are attached masses $M, m$ and $M$ at the points $B, C$ and $D$ , respectively. The system hangs freely in equilibrium with ends $A$ and $E$ of the string fixed in the same horizontal line. It is given that tan $\tan α = 3 / 4$ and $\tan β = 12 / 5$ . Then the tension in the string $B C$ is

Question Image

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 13

A particle is moving in the

x - y

plane. At certain instant of time, the components of its velocity and acceleration are as follows:

v_{x} = 3 m s^{- 1}, v_{y} = 4 m s^{- 1}, a_{x} = 2 m s^{- 2}

and

a_{y} = 1 m s^{- 2}

. The rate of change of speed at this moment is

HARD

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 14

The given figure shows two blocks each of mass

m

. The system is released from rest. If accelerations of blocks

A

and

B

at any instant (not initially) are

a_{1}

and

a_{2}

, respectively, then
Question Image

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 15

A block is lying on the horizontal frictionless surface. One end of a uniform rope is fixed to the block which is pulled in the horizontal direction by applying a force

F

at the other end. If the mass of the rope is half the mass of the block, the tension in the middle of the rope will be

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 16

60 kg

man stands on a spring scale in a lift. At some instant, he finds that the scale reading has changed from

60 kg

50 kg

for a while and then comes back to original mark. What should be concluded?

MEDIUM

JEE Advanced

IMPORTANT

PHYSICS For Joint Entrance Examination JEE (Advanced) Mechanics I>Chapter 6 - Newton's Laws of Motion (Without Friction)>Exercises>Q 17

Inside a horizontally moving box, an experimenter finds that when an object is placed on a smooth horizontal table and is released, it moves with an acceleration of

10 m s^{- 2}

. In this box, if

1 kg

body is suspended with a light string, the tension in the string in equilibrium position (with respect to experimenter) will be (take

g = 10 m s^{- 2}

Three blocks A, B and C are suspended as shown in figure. Mass of each of blocks A and B is m. If system is in equilibrium and mass of C is M, then:

Important Questions on Newton's Laws of Motion (Without Friction)

Learn and Prepare for any exam you want !

Three blocks $A, B$ and $C$ are suspended as shown in figure. Mass of each of blocks $A$ and $B$ is $m$ . If system is in equilibrium and mass of $C$ is $M$ , then: