A body of mass 2 kg is made to oscillate using a spring of force constant `8Nm^(-1)` find (i) angular frequency (ii) frequency of vibration (iii) time period of vibration.

A body of mass 1 kg is made to oscillate on a spring of force constant 16 N/m. Calculate (a) Angular frequncy , (b) Frequency of vibrations.

A body of mass 16 kg is made to oscillate on a spring of force constant 100 N kg^(-1) . Deduce the angular frequency.

If a body of mass 0.98 kg is made to oscillate on a spring of force constant 4.84 N/m the angular frequency of the body is

A body of mass 1 kg oscillates on a spring of force constant 16 N/m. Calculate the angular frequency.

A body of mass 1 kg suspended by a light vertical spring of spring constant 100 N/m executes SHM. Its angular frequency and frequency are

A particle executes SHM given by y=0.24sin(400t+0.5) in SI units. Find (i) amplitude (ii) frequency and (iii) time period of vibration.

A body of mass 0.5 kg made to revolve in a horizontal circle of radius 3 m with a uniform speed of 12 mm/s . Find its (i) angular speed (ii) frequency of revolution. (iii) time period . (iv) centripetal acceleration.

A spring compressed by 0.2 m develops a restoring force of 25 N. A body of mass 5 kg is placed over it. Deduce (i) force constant of the spring (ii) the depression of the spring under the weight of the body and (iii) the period of oscillation, if the body is disturbed. Take g=10 N kg^(-1) .

The frequency of a vibrating body is 100 Hz. Its time period is ______