In the system shown in figure, all surfa...

In the system shown in figure, all surfaces are smooth, pulley and strings are massless. Mass of both A and B are equal. The system is released from rest.

(a) Find the `veca_(A). veca_(B)` immediately after the system is released. `veca_(A) "and" veca_(B)` are accelerations of block A and B respectively.
(b) Find `veca_(A)` immediately after the system is released.

Text Solution

Verified by Experts

The correct Answer is:

`veca_(A). Veca_(B) = 0` immediately after release
(b) `veca_(A) = (g)/(2) (leftarrow)`

Topper's Solved these Questions

MOMENTUM AND CENTRE OF MASS
ARIHANT|Exercise Momentum And Center of Mass|117 Videos
ROTATIONAL MOTION
ARIHANT|Exercise PHYSICS|159 Videos

Similar Questions

Explore conceptually related problems

In the following figure all surfaces are smooth. The system is released from rest , then :

In the system shown in figure all surfaces are smooth. Strings is massless and inextensible.Find acceleration of the system and tension T in the string (g=10m//s^(2))

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

In the system shown in the diagram all surfaces are smooth, pulley and strings are ideal. If vec( a_(A)) and vec( a_(B)) are the accelerations of the two blocks, then just after the system is released from rest, then choose correct statement(s) :

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.

A horizontal force F=2N is applied on the system shown in the figure.All surfaces are smooth.All pulleys and string are ideal.Mass of A and B each is 1 kg.What is the acceleration of B with respect to A

In the system shown in figure, the block A is released from rest. Find Tension in the string.

ARIHANT-NEWTONS LAWS OF MOTION-All Questions

A 50 kg man is standing at the centre of a 30 kg platform A. Length of...
Text Solution
|
A wedge is placed on the smooth surface of a fixed incline having incl...
Text Solution
|
In the system shown in figure, all surfaces are smooth, pulley and str...
Text Solution
|
A block is placed on an incline having inclination theta . There is a ...
Text Solution
|
A wedge of mass m is placed on a horizontal smooth table. A block of m...
Text Solution
|
A rod is kept inclined at an angle theta with the horizontal A sleeve ...
Text Solution
|
In the arrangement shown in figure, a block A of mass m has been place...
Text Solution
|
A smooth rod is fixed at an angle alpha to the horizontal. A small rin...
Text Solution
|
In the system shown in figure all surfaces are smooth and string and p...
Text Solution
|
In the system shown in figure, the two springs S(1) "and" S(2) have fo...
Text Solution
|
A block of mass m = 1 kg is kept pressed against a spring on a rough h...
Text Solution
|
An experimenter is inside a uniformly accelerated train. Train is movi...
Text Solution
|
Two hemispheres of radii R and r(lt R) are fixed on a horizontal table...
Text Solution
|
In order to lift a heavy block A, an engineer has designed a wedge sys...
Text Solution
|
A 60 kg platform has been placed on a rough incline having inclination...
Text Solution
|
In the system show in figure, mass of the block placed on horizontal s...
Text Solution
|
In the arrangement shown in the figure, block A of mass 8 kg rests on ...
Text Solution
|
In the arrangement shown in figure, pulley and string are light. Frict...
Text Solution
|
In the arrangement shown in figure pulley P can move whereas other two...
Text Solution
|
A rope of length ((pi)/(2) + 1) R has been placed on a smooth spher...
Text Solution
|