Passage IX) For SHM to take place force acting on the body should be proportional to -x or F = -kx. If A be the amplitude then energy of oscillation is `1/2`k`A^(2)`
If energy of osciallation is 18 J, between what points the block will oscillate?

For SHM to take place force acting on the body should be proportional to -x or F =- kx . If A be the amplitude then enegry of oscillation is 1//2KA^(2) . If enegry of oscillation is 18J , between what points does the block will oscillate?

For SHM to take place force acting on the body should be proportional to -x or F =- kx . If A be the amplitude then energy of oscillation is 1//2KA^(2) . The amplitude of oscillation is

Passage IX) For SHM to take place force acting on the body should be proportional to -x or F = -kx. If A be the amplitude then energy of oscillation is 1/2 k A^(2) Force acting on a block is F=(-4x +8) . Here F is in Newton and x the position of block on x-axis in meter

For SHM to take place force acting on the body should be proportional to -x or F =- kx . If A be the amplitude then energy of oscillation is 1//2KA^(2) . Force acting on a block is F = (-4x +8) . Here F is in newton and x in the position of block on x-axis in meters

The damping force acting on an oscillating body is proportional to its velocity i.e. F = Kv. What is the dimensional formula for K?

The force on a body executing SHM is 4 N when the displacement from mean position is 2 cm. If amplitude of oscillation is 10 cm, then the maximum kinetic energy associated with the SHM will be

A horizontal platform with an object placed on it is executing SHM in the vertical direction . The amplitude of oscillation is 2.5 cm what must be the least period of these oscillations so that the object is not detached ?

A particle of mass 0.2 kg executes SHM under a force of F = - 20x N. If speed of particle at mean position is 12 m/s then the amplitude of oscillations is

A force F=-4x+8 (in N) is acting on a block where x is the position of the block in metres. The energy of oscillation is 32 J. The block oscillates between two points, out of which the value of position of one point (in metres) is an integer from 0 to 9. Find it.

A horizontal platform with an object placed on it is executing SHM in the vertical direction. The amplitude of oscillation is 4 xx 10^(-3) m. The least period of these oscillations, so that the object is not detached from the platform is pi/(5x) second. Find value of x. Take g=10m/ s^(2)