The vertical motion of a huge piston in a machine is approximately simple harmonic with a frequency of `0.50 s^(-1)`. A block of 10 kg is placed on the pistion. What is the maximum amplitude of the pistion's SHM for the block and the piston to remain together ?

The vertical motion of a huge piston in a machine is approximately SHM with a frequency of 1Hz.A block of mass 20 kg is placed on the piston . What is the maximum amplitude of the piston's SHM for the block and the piston to remain together . Hint : v= (1)/( 2pi)sqrt((k)/(m)) Find k For maximum displacement x_(max) =A For maximum restoring force , F= - kA = -mg :. A = (mg)/(k) = (mg) /( momega^(2))= (g)/( omega^(2))

The vertical motion of a huge piston in a machine is approximately SHM with a frequency of 1Hz.A block of mass 20 kg is placed on the piston . What is the maximum amplitude of the piston's SHM for the block and the piston to remain together . Hint : v= (1)/( 2pi)sqrt((k)/(m)) Find k For maximum displacement x_(max) =A For maximum restoring force , F= - kA = -mg :. A = (mg)/(k) = (mg) /( momega^(2))= (g)/( omega^(2))

The vertical motion of a huge piston in a machine is approximately SHM. A block of 5 kg is placed on the piston. The maximum amplitude of the piston's SHM for the block and the piston to remains together is 0.99m. Find the frequency . Hint : v= (1)/( 2pi)sqrt((k)/(m)) Find k For maximum displacement x_(max) =A For maximum restoring force , F= - kA = -mg :. k= (mg)/( A) . Put the valeu of K in v =(1)/( 2pi ) sqrt((k)/(m)) to find v .

The vertical motion of a huge piston in a machine is approximately SHM. A block of 5 kg is placed on the piston. The maximum amplitude of the piston's SHM for the block and the piston to remains together is 0.99m. Find the frequency . Hint : v= (1)/( 2pi)sqrt((k)/(m)) Find k For maximum displacement x_(max) =A For maximum restoring force , F= - kA = -mg :. k= (mg)/( A) . Put the valeu of K in v =(1)/( 2pi ) sqrt((k)/(m)) to find v .

A piston is performing S.H.M. in the vertical direction with a frequency of 0.5 Hz. A block of 10 kg is placed on the piston. The maximum amplitude of the system such that the block remains in contact with the piston is.

A huge piston in a machine is undergoing, vertical S.H.M approximately with a frequency of 1 s^(-1) . A 5 kg block is placed on the piston. iF the block and the piston move together, determine the maximum amplitude of the piston S.H.M. such that block remains in contact with piston take, g = 9.8 m//s^(2)

The period of a piston in an engine, moving simple harmonically is 2 s. A body of mass 10 kg is placed on the piston. Calculate the maximum amplitude of the piston such that the mass is not thrown out from the platform.