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

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?

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 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

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

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 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. What must be least period of these oscillations , so that the object is not detached from the platform ? (take , g=10 ms^(-2) )

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

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 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)

Ratio of kinetic energy to potential energy of an oscillator when it is at distance 1//N times of amplitude from mean positions in