Home
Class 11
PHYSICS
Two bodies of masses m1 and m2 are conne...

Two bodies of masses `m_1 and m_2` are connected by a light string going over a smooth lilght pulley at the end of an incline. The `mass_1` lies on the incline `m_2` hangs vertically. The system is t rest. Find the angle of the incline and the fore exerted by the incline on the body of mass `m_1.

Text Solution

Verified by Experts

ure shows the situation with the forces onn `m_1 and m_2` shown. Take the body of mass `m_2` as the system. The forces acting on it are

i. `m_2` g vertically downward (by the earth),
ii. T along the string up the incline (by the string),
N normal to the incline (by the incline).
As the string and the pulley are all light and smooth, the tension in the string is uniform everwhere. Hence, same T is used for the equations of `m_1 and m_2`.As the system is in equilibrium, these forces should add to zero.
Take components parallel to the incline,
`T=m_1 gcos (pi/2-theta)=m_1 g sin theta `.........ii
Taking comonents along the normal to the incline,
Taking components along the normal to the incline,
`N=m_1g cos theta` ............iii
ElimiN/Ating T form i and ii
`m_2g=m_1gsin theta`
or, `sintheta=m_2/m_1`
`giving ` theta= sin^-1 (m_2/m_1)`
From iii `N=m_1gsqrt(1- (m_2/m_1)2)`.
Promotional Banner

Topper's Solved these Questions

  • NEWTON'S LAWS OF MOTION

    HC VERMA ENGLISH|Exercise Objective -1|14 Videos

  • NEWTON'S LAWS OF MOTION

    HC VERMA ENGLISH|Exercise Objective -2|9 Videos

  • NEWTON'S LAWS OF MOTION

    HC VERMA ENGLISH|Exercise Questions for short Answer|17 Videos

  • LAWS OF THERMODYNAMICS

    HC VERMA ENGLISH|Exercise All Questions|64 Videos

  • PHYSICS AND MATHEMATICS

    HC VERMA ENGLISH|Exercise Question for short Answer|14 Videos

Similar Questions

Explore conceptually related problems

Two masses m and M(m lt M) are joined by a light string passing over a smooth and light pulley (as shown)

Two masses m and M(gt m) are joined by a light string passing over a smooth light pulley. The centre of mass of the system moves with an acceleration

Two blocks of masses m and 2m are connected by a light string passing over a frictionless pulley. As shown in the figure, the mass m is placed on a smooth inclined plane of inclination 30° and 2m hangs vertically. If the system is released, the blocks move with an acceleration equal to :

Two bodies of masses 1 kg and 2 kg are connected by a very light string passed over a clamped light smooth pulley. If the system is released from rest, find the acceleration of the two masses and the tension in the string

A light string passing over a smooth light pulley connects two blocks of masses m_1 and m_2 (vertically). If the acceleration of the system is g//8 , then the ratio of the masses is

A light string passing over a smooth light pulley connects two blocks of masses m_1 and m_2 (vertically). If the acceleration of the system is g//8 , then the ratio of the masses is

Two masses m_(1) and m_(2) are connected to the end of a string passing over a smooth pulley . The magnitude of tension in the string is T and the masses are moving with magnitude of acceleration a . If the masses are interchanged , then

Two masses M_1 and M_2 are connected by a light rod and the system is slipping down a rough incline of angle theta with the horizontal. The friction coefficient at both the contacts is mu . Find the acceleration of the system, and the force by the rod on one of the blocks.

Two bodies of masses m_(1) " and " m_(2) are connected a light string which passes over a frictionless massless pulley. If the pulley is moving upward with uniform acceleration (g)/(2) , then tension in the string will be

In a simple Atwood machine, two unequal masses m_1 and m_2 are connected by string going over a clamped light smooth pulley . In a typical arrangement m_1=300g and m_2=600g . The system is released from rest. (a) Find the distance travelled by the first block in first two seconds. (b) Find the tension in the string. (c) Find the force exerted by clamp on the pulley.