The mass (M) shown in the figure oscillates in simple harmonic motion with amplitude of the point (P) is.
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The mass M shown in the figure oscillates in simple harmonic motion with amplitude A. The maximum speed of junction P is V_0 . Assume springs are massless. Select the correct option/s

The mass M shown in figure ocillates in simple harmonic motion with amplitude A. The amplitude of the point P is

The mass M shown in the figure oscillates in simple harmnonic motion and amplitude A . The amplitude of the point P is

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 ball is rolling without slipping in a spherical shallow bowl (radius R) as shown in the figure and is executing simple harmonic motion. If the radius of the ball is doubled, the period of oscillation

A system is oscillating with undamped simple harmonic motion. Then the

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

The total work done by the restoring force in simple harmonic motion of amplitude A and angular velocity omega in one oscillation is

The maximum velocity a particle, executing simple harmonic motion with an amplitude 7 mm, 4.4 m//s. The period of oscillation is.