Home
Class 12
PHYSICS
[" particle of mass "m" is attached to o...

[" particle of mass "m" is attached to one end "f" a masslibes of force constant in ingon a firctionatess three "],[" ed.Partically with a rigid wall.After this collition."],[square" the speed of the particle when itreturns three "pst" then "15u_(0)],[square" the time at which the particle passes throulthnm postition for the first the "pi sqrt((pi)/(k))],[square" the time at which the maximum compression of thespring occursis "t=(4 pi)/(3)sqrt((pi)/(k))]

Promotional Banner

Similar Questions

Explore conceptually related problems

A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts moving horizontally from its equilibrium position at time t=0 with an initial velocity u_0 . when the speed of the particle is 0.5u_0 , it collides elastically with a rigid wall. After this collision

A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts moving horizontally from its equilibrium position at time t=0 with an initial velocity u_0 . when the speed of the particle is 0.5u_0 , it collides elastically with a rigid wall. After this collision

A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts moving horizontally from its equilibrium position at time t=0 with an initial velocity u_0 . when the speed of the particle is 0.5u_0 , it collides elastically with a rigid wall. After this collision

A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts moving horizontally from its equilibrium position at time t=0 with an initial velocity u_0 . when the speed of the particle is 0.5u_0 , it collides elastically with a rigid wall. After this collision

A 4 kg particle is moving along the x- axis under the action of the force F = - ((pi^(2))/(16)) x N At t = 2 sec the particle passes through the origin and t = 10sec , the speed is 4sqrt(2)m//s The amplitude of the motion is

A 4 kg particle is moving along the x- axis under the action of the force F = - ((pi^(2))/(16)) x N At t = 2 sec the particle passes through the origin and t = 10sec , the speed is 4sqrt(2)m//s The amplitude of the motion is

A particle which is attached to a spring oscillates horizontally with simple harmonic motion with a frequency of 1//pi Hz and total energy of 10J. If the maximum speed of the particle is 0.4ms^(-1) , what is the force constant of the spring? What will be the maximum potential energy of the spring during the motion?

A particle executed S.H.M. starting from its mean position at t=0 , If its velocity is sqrt3bomega , when it is at a distance b from the mean positoin, when omega=(2pi)/(T) , the time taken by the particle to move from b to the extreme position on the same side is

A particle executed S.H.M. starting from its mean position at t=0 , If its velocity is sqrt3bomega , when it is at a distance b from the mean positoin, when omega=(2pi)/(T) , the time taken by the particle to move from b to the extreme position on the same side is