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

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 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.

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

Two blocks A and B of masses 5 kg and 2 kg respectively connected by a spring of force constant = 100Nm^(-1) are placed on an inclined plane of inclined 30^(@) as shown in figure If the system is released from rest

A body of mass 0.5 kg is suspended by a weightless spring of force constant 500 Nm^(-1) . Another body of mass 0.1 kg moving vertically upwards with velocity of 5 ms^(-1) hits the suspended body and gets embeded into the suspended body. What will be the frequency of oscillation ?

A body of mass 1.0 kg is suspended from a weightless spring having force constant 600Nm^(-1) . Another body of mass 0.5 kg moving vertically upwards hits the suspended body with a velocity of 3.0ms^(-1) and gets embedded in it. Find the frequency of oscillations and amplitude of motion.

Two rigid bodies A and B of masses 1 kg and 2 kg respectively are rigidly connected to a spring of force constant 400 Nm^(-1) . The body B rests on a horizontal table. From the rest position , the body A is compressed by 2 cm and then released . Deduce (i) teh frequency of oscillation, (ii) total oscillation energy, (iii) the amplitude of the harmonic vibration of the reaction of the table on body B.

A block of mass 1kg is connected with a massless spring of force constant 100 N//m . At t = 0 , a constant force F = 10N is applied on the block. The spring is in its netural length at t = 0 . The speed of particel at x = 6cm form mean position is