A block is attached to a horizontal spring and oscillates back and forth on f frictionless horizontal surface at a frequency of 3.00Hz. The amplitude of the motion is `5.08 xx 10^(-2)m`. At the point where the block has its maximum speed, it suddenly splits into two identical parts, only one part remaining attached to the spring. What is the amplitude and the frequency of the simple harmonic motion that exists after the block splits?

A 0.20kg object mass attached to a spring whose spring constant is 500N/m executes simple harmonic motion. If its maximum speed is 5.0m/s, the amplitude of its oscillation is

A block of mass m is at rest on the another blcok of same mass as shown in figure. Lower block is attached to the spring then the maximum amplitude of motion so that both the blcok will remain in contact is

A block with mass M attached to a horizontal spring with force constant k is moving with simple harmonic motion having amplitude A_(1) . At the instant when the block passes through its equilibrium position a lump of putty with mass m is dropped vertically on the block from a very small height and sticks to it. (a) Find the new amplitude and period. (b) Repeat part (a) for the case in which the putty is dropped on the block when it is at one end of its path.

A block of mass 'm' is attached to the light spring of force constant K and released when it is in its natural length. Find amplitude of subsequent oscillations.

A particle is executing simple harmonic motion with an amplitude 9 cm. Locate the point where its speed be one-third of its maximum speed.

A 1 kg block attached to a spring vibrates with a frequency of 1 Hz on a frictionless horizontal table. Two springs identical to the original spring are attached in parallel to an 8 kg block placed on the same table. So, the frequency of vibration of the 8 kg block is

A ball hung from a vertical spring oscillates in simple harmonic motion with an angular frequency of 2.6 rad/s and an amplitude of 0.075m. What is the maximum acceleration of the ball?

A block of mass m is at rest on an another block of same as shown in figure lower block is atteched to the spring than the maximum amplitude of motion as than both the block will remain as mat both the block will remain in contact is

Two identical springs of spring constant k are attached to a block of mass m and to fixed supports as shown in the figure. The time period of oscillation 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