In the system shown in fig the pulley is...

In the system shown in fig the pulley is frictionless and the string massless if `m_(1)=m_(2)` thrust on the pulley will be:

`"less than" (m_(1)+m_(2))g`

`"greater than" (m_(1)+m_(2))g`

`"equal to "(m_(1)+m_(2))g`

none of the above

Text Solution

Verified by Experts

The correct Answer is:

`2T=Thrust =m_(1)g+m_(2)g`

Topper's Solved these Questions

FORCE AND NEWTONS LAWS OF MOTION
GRB PUBLICATION|Exercise More than one choice is correct|15 Videos
FORCE AND NEWTONS LAWS OF MOTION
GRB PUBLICATION|Exercise Assertion- Reason|4 Videos
FORCE AND NEWTONS LAWS OF MOTION
GRB PUBLICATION|Exercise Problem for practice|30 Videos
BASIC MATHEMATICS
GRB PUBLICATION|Exercise Problems For Practice|35 Videos
FRICTION AND CIRCULAR MOTION
GRB PUBLICATION|Exercise Comprehension type|11 Videos

Similar Questions

Explore conceptually related problems

In the system shown in the given figure, the inline is frictionless, the string is massless, and inextensible pulley is light and frictionless. The system is released from rest.

Find the acceleration blocks in fig. The pulley and the string are massless.

In the system shown in the fig. there is no friction and string is light. Mass of movable pulley P_(2) "is" M_(2) . If pulley P_(1) is massless, what should be value of applied force F to keep the system in equilibrium?

For the following system shown assume that pulley is frictionless, string is massless (m remains on M), Q. The acceleration of the block A is

For the following system shown assume that pulley is frictionless, string is massless (m remains on M), Q. The force on the ceiling is

For the system shown in the figure,the pulleys are light and frictionless.The tension in the string will be

For the following system shown assume that pulley is frictionless, string is massless (m remains on M), Q. Normal reaction on m is (force on C due to B)

In the arrangement shown, the pulleys, string and the spring balance, all the ideal. If m_(1) gt m_(2) , then the reading of the spring balance is

In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of block A is 2m and that of block B is m. The acceleration of block B immediately after system is released from rest is

GRB PUBLICATION-FORCE AND NEWTONS LAWS OF MOTION-Objective Questions

In the system shown in fig the mass 30 kg is pulled by a force 210 N A...
Text Solution
|
In the system shown in fig when both masses are moving with the same a...
Text Solution
|
In the system shown in fig the pulley is frictionless and the string m...
Text Solution
|
In the system shown in fig the pulley is frictionless and the string m...
Text Solution
|
In fig tension in the string that connects the masses A and B is T(1) ...
Text Solution
|
In a conservative field at stable equilibrium potential energy is:
Text Solution
|
Two masses m(1) and m(2) are connected to the ends of a massless strin...
Text Solution
|
Length of a spring is l(1) when it is loaded by 5 N its length is l(2)...
Text Solution
|
In fig mass m is lifted up by attaching a mass 2m to the other end of ...
Text Solution
|
A 30 kg body is pulled by a rope 4 m long on a frictionless horizontal...
Text Solution
|
A block mass 'm' is placed on a frictionless inclined plane of inclina...
Text Solution
|
In if the inclined plane is not accelerating and the block is then sli...
Text Solution
|
On the floor of an elevator a block of mass 50 kg is placed on which a...
Text Solution
|
A person wishes to slide down a rope whose breaking load is 3/5 of the...
Text Solution
|
A gun is mounted on a vehicle which is at rest on a frictionless road ...
Text Solution
|
An open knife of mass m is dropped from a height h on a wooden floor. ...
Text Solution
|
Referring to fig (a) and (b)
Text Solution
|
Consider a system of masses M(1) and M(2)(M(1) gt M(2)) connected by a...
Text Solution
|
The horizontal acceleration that should be given to a smooth inclined ...
Text Solution
|
A train having 60 compartments is pulled by engine with a force 6xx10^...
Text Solution
|