Home
Class 12
PHYSICS
A mass m(1)=1kg connected to a horizonta...

A mass `m_(1)=1kg` connected to a horizontal spring performs S.H.M. with amplitude A. While mass `m_(1)` is passing through mean position another mass `m_(2)=3kg` is placed on it so that both the masses move together with amplitude `A_(1)`. The ratio of `(A_(1))/(A)` is `((p)/(q))^(1//2)`, where p and q are the smallest integers. Then what is the value of `p+q`?

Text Solution

Verified by Experts

The correct Answer is:
5
Promotional Banner

Similar Questions

Explore conceptually related problems

A mass M , attached to a horizontal spring, excutes SHM with a amplitude A_(1) . When the mass M passes through its mean position then a smaller mass m is placed over it and both of them move together with amplitude A_(2) , the ratio of ((A_(1))/(A_(2))) is :

A horizontal spring -block system of mass 2kg executes S.H.M when the block is passing through its equilibrium position an object of mass 1kg is put on it the two move together The new amplitude of vibration is (A being its initial amplitude)

A horizontal spring -block system of mass 2kg executes S.H.M when the block is passing through its equilibrium position an object of mass 1kg is put on it the two move together The new amplitude of vibration is (A being its initial amplitude)

The displacement of an object of mass 3 kg is given by the relation S=(1)/(3)t^(2) , where t is time in seconds. If the work done by the net force on the object in 2 s is (p)/(q) joule, where p and q are smallest integer values, then what is the value of p+q ?

In a S.H.M. with amplitude 'A', what is the ratio of K.E. and P.E. at (A)/(2) distance from the mean position ?

Block A of mass m is performing SHM of amplitude a. Another block B of mas m is gently placed on A when it passes through mean position and B sticks to A . Find the time period and amplitude of new SHM .

A mass of 1 kg is placed at (1m, 2m, 0). Another mass of 2 kg is placed at (3m, 3m, 0). Find the moment of inertial of both the masses about z-axis

A body of mass m_(1) moving with uniform velocity of 40 m/s collides with another mass m_(2) at rest and then the two together begin to moe wit h uniform velocity of 30 m/s. the ratio of their masses (m_(1))/(m_(2)) is

A body of mass m_(1) moving with uniform velocity of 40 m/s collides with another mass m_(2) at rest and then the two together begin to moe wit h uniform velocity of 30 m/s. the ratio of their masses (m_(1))/(m_(2)) is

A body A mass m_(1) exerts a force on another body B of mass m_(2) . If the acceleration of B be a_(2) , then the acceleration (in magnitude) of A is