A mass m oscillates with simple harmonic motion with frequency `f= omega/(2pi)`and amlitude A on a spring with constant K. therefore

A mass m oscillates with simple harmonic motion with frequency f = (omega)/(2 pi) and amplitude A on a spring of stiffness constant K. Which of the following is not correct ?

A body of mass 20 g connected to a spring of spring constant k, executes simple harmonic motion with a frequency of (5//pi) Hz. The value of spring constant is

A body of mass 20 g connected to a spring of spring constant k, executes simple harmonic motion with a frequency of (5//pi) Hz. The value of spring constant is

A particle which is attached to a spring oscillates horizontally with simple harmonic motion with a frequency of 1//pi Hz and total energy of 10J. If the maximum speed of the particle is 0.4ms^(-1) , what is the force constant of the spring? What will be the maximum potential energy of the spring during the motion?

The figure shows a mass M attached to a series arrangement of two springs of spring constants k_(1) and k_(2) where k_(2) = 2k_(1) . If the mass M oscillates in simple harmonic motion with amplitude A, the amplitude of the point O is (alphaA)/(beta) . Find beta-alpha .

A paricle of mass 200 g executes a simple harmonic motion. The restorting force is provided by a spring of spring constant 80 N//m . Find the time period.

A particle of mass 200 g executes a simple harmonic motion. The restoring force is provided by a spring of spring constant 80 N//m . Find the time period.

A paricle of mass 200 g executes a simple harmonic motion. The restorting force is provided by a spring of spring constant 80 N//m . Find the time period.

A particle of mass 200 g executes a simple harmonic motion. The restoring force is provided by a spring of spring constant 80 N//m . Find the time period.

A paricle of mass 30 kg executes a simple harmonic motion. The restorting force is provided by a spring of spring constant 80 N//m . Find the time period.