Home
Class 11
PHYSICS
The friction coeficeint betweenteh tow b...

The friction coeficeint betweenteh tow blocks shown in figure is `mu` and the horizontal plance is smooth. A. If the system is slightly diplaced and released find the time period. B. find the magnitude of the frictional force between the blocks when the displacement from the mean position is x. c. What can be the maximum amplitude if the upper block does not slip relative to the lower block?

Text Solution

Verified by Experts

a. For small amplitude the tow blocks oscillate together. The angular frequency is
`omega=sqrt(k/(M+m))`
and so the time period `T=2pisqrt((M+m)/k)`.
b. The acceleration of the blocks at displacement x from the mean position is
`a=-omega^2x=(-kx)/(M+m)` ltbr. the resultant force on teh upper block is therefore
`ma=(-mkx)/(M+m)`
this force is provided by friction of the lower block. Hence the magnitude of the frictioN/Al force is `(mk|x|)/(M+m)`
c. Maximum force of friction required for simple harmonic motion of the upper block is `(mkA)/(M+m)` at the extreme positions. But the madximum frictioN/Al force can only be `mumg`. Hence
`(mkA)/(M+m)=mumg or A=(mu(M+m)g)/k`.
Promotional Banner

Similar Questions

Explore conceptually related problems

The friction coefficient between the board and the floor shown in figure is mu Find the maximum force that the man can exert on the rope so that the board does not slip on the floor

The coefficient of static and kinetic friction between the two blocks and also between the lower block and the ground are mu_(s)=0.6 and mu_(k)=0.4 Find the value of tension T applied on the lower block at which the upper block begins to slip relative to lower block.

Consider the figure shown here of a moving cart C. if the coefficient of friction between the block A and the cart is mu , then calculate the minimum acceleration a of the cart C so that the block A does not fall.

A block is placed on a rough horizontal plane. Three horizontalforces are applied on the block as shown in the figure. If the block is in equilibrium, find the friction force acting on the block.

In the figure given, the system is in equilibrium. What is the maximum value that W can have if the friction force on the 40N block can not exceed 12.0N?

A block is kept on a rough horizontal surface as shown. Its mass is 2 kg and coefficient of friction between block and surface (mu)=0.5. A horizontal force F is acting on the block. When

Find the minimum value of horizontal force (F) required on the block of mass m to keep it at rest on the wall. Given the coefficient of friction between the surfaces is mu .

The friction coefficient between the horizontal surface and blocks A and B are (1)/(15) and (2)/(15) respectively. The collision between the blocks is perfectly elastic. Find the separation (in meters) between the two blcoks when they come to rest.

A particle executing S.H.M. has angular frequency 6.28 s^(-1) and amplitude 10 cm find (a) the time period (b) the maximum speed ( c ) the maximum acceleration (d) the speed when the displacement is 6 cm from the mean postiton ( e ) the speed at t=1//6 s assuming that the motion starts from rest at t=0

A block P of mass m is placed on horizontal frictionless plane. A second block of same mass m is placed on it and is connected to a spring of spring constant k, the two blocks are pulled by distance A. Block Q oscillates without slipping. What is the maximum value of frictional force between the two blocks.