top button
Flag Notify
    Connect to us
      Site Registration

Site Registration

Two blocks are held against the wall by applying a horizontal force as shown in the diagram....

0 votes
408 views

Two blocks are held against the wall by applying a horizontal force as shown in the diagram. The wall is frictionless but the surface between the blocks is rough.

Can these blocks remain in the equilibrium

Can these blocks remain in the equilibrium, answer with explanation?

posted Mar 22, 2017 by anonymous

Share this puzzle
Facebook Share Button Twitter Share Button LinkedIn Share Button

2 Answers

+1 vote

no, both blocks will fall, as the wall is frictionless. even if there exists a frictional force at the interfaces of the blocks that will cancel out each other as internal force for both the blocks as an integrated system. Result is: both the blocks will fall.

answer Mar 23, 2017 by Deepak Mishra
0 votes

The 2 blocks together will be falling at an acceleration of g but there wont be any relative motion between the 2 blocks as long as the horizontal forces keep following the blocks.

answer Mar 23, 2017 by Tejas Naik
Wall is frictionless
There is friction between the blocks



Similar Puzzles
+1 vote

A spherical shell of mass m is resting on the rough horizontal plane with a coefficient of friction 0.3 a horizontal force act at a distance of 5r/3 from the baseline where r is the radius of the sphere.
Find work done by friction body has moved by a distance of gm/r from the initial position?

0 votes

enter image description here
A wooden block of mass m resting on a rough horizontal table is pulled by a force F as shown in figure. If k is the Coefficient of friction between block and table. What will be its acceleration?

0 votes

An object of mass m = 2 kg is lying on a rough inclined slope such that it is at rest. Find the magnitude of contact force acting on the object (in Newtons).

Assume
g=10
Coefficient of friction = .8
Angle of elevation = 30

0 votes

The engine of a car applies enough force to accelerate the car from 0 km/h to 180 km/h covering a distance of 100 m. If the mass of the car is 3 tons. Find the force applied by the car's engine?

+1 vote

If the kinetic friction force acting on a sliding crate has a magnitude of 120N. How much force must be applied to maintain a constant velocity?

...