Home
Class 11
PHYSICS
An ideal massless spring S can compresse...

An ideal massless spring S can compressed `1.0` m in equilibrium by a force of `1000 N`. This same spring is placed at the bottom of a friction less inclined plane which makes an angle `theta =30^@` with the horizontal. A `10 kg` mass `m` is released from the rest at top of the inclined plane and is brought to rest momentarily after compressing the spring by `2.0 m.` the distance through which the mass moved before coming to rest is.

Promotional Banner

Similar Questions

Explore conceptually related problems

An ideal massless spring S can compressed 1.0 m in equilibrium by a force of 1000 N . This same spring is placed at the bottom of a friction less inclined plane which makes an angle theta =30^@ with the horizontal. A (10 kg) mass (m) is released from rest at the top of the incline and and is brought to rest momentarily after compressing the spring by 2 m. if g =10 ms^(-1) , what is the speed of just before it touches the spring? .

An ideal massless spring S can compressed 1.0 m in equilibrium by a force of 100 N . This same spring is placed at the bottom of a friction less inclined plane which makes an angle theta =30^@ with the horizontal. A (10 kg) mass (m) is released from rest at the top of the incline and and is brought to rest momentarily after compressing the spring by 2 m. if g =10 ms^(-1) , what is the speed of just before it touches the spring? .

An ideal massless spring is compressed by 1 m by a force of 100 N. The same spring is placed at the bottom of a frictionless inclined plane (theta = 30^(@)) . A 10-kg mass is released from the top of the incline and is brought to rest momentarily after compressing the spring by 2m. Through what distance does the mass slide before coming to rest ? [Hint : Apply work-energy theorem]

An ideal massles spring S can be compressed 1 m by a force of 100 N in equilibrium. The same spring is placed at the bottom of a frictionless plane inclined at 30^(@) to the horizontal. A 10 kg block M is released from rest at the top of the incline and is brought to rest momentarily after compressing the spring by 2 m. If g = 10 m//s^(2) , the speed of mass just before it touches the spring is sqrt(10x) m//s . Find value of x?

An ideal massles spring S can be compressed 1 m by a force of 100 N in equilibrium. The same spring is placed at the bottom of a frictionless plane inclined at 30^(@) to the horizontal. A 10 kg block M is released from rest at the top of the incline and is brought to rest momentarily after compressing the spring by 2 m. If g = 10 m//s^(2) , the speed of mass just before it touches the spring is sqrt(10x) m//s . Find value of x?

A slab of mass 'm' is released from a height x to the top a spring of force constant k. The maximum compression of the spring is y. Then

A block of mass 2 kg rests on a rough inclined plane making an angle of 30° with the horizontal. If mu_(S)= 0.6 , what is the frictional force on the block ?

A block of mass 2 kg rests on a rough inclined plane making an angle of 30° with the horizontal. If mu_(S)= 0.6 , what is the frictional force on the block ?