A particle of mass m moving along a stra...

A particle of mass m moving along a straight line is acted on by a retrading force (always directed against the motion) `F=be^(alphav)`, where b abd `alpha` are positive constant and v is the velocity. At t=0 it is moving with velocity `v_(0)`. At what time does it come to rest ?

Similar Questions

Explore conceptually related problems

A particle of mass m moving along a straight line is acted on by (always directed against the motion) F-be^(alphav) where b and alpha are postive constants and x is the velocity. At t-0 it is moving with velocity V_(0) . At what time does it come to rest?

A particle moves with an initial velocity V_(0) and retardation alpha v , where alpha is a constant and v is the velocity at any time t. Velocity of particle at time is :

A particle having a velocity v = v_0 at t= 0 is decelerated at the rate |a| = alpha sqrtv , where alpha is a positive constant.

A particle move with a velocity v=alpha t^(3) along a straight line.The average velocity in time interval t=0 to t=T is

A particle of mass m is moving along the line y-b with constant acceleration a. The areal velocity of the position vector of the particle at time t is (u=0)

A particle moves with an initial velocity V_(0) and retardation alpha v , where alpha is a constant and v is the velocity at any time t. After how much time, speed of particle decreases by 75%

A particle of mass m moving along a straight line is acted on by a retrading force (always directed against the motion) `F=be^(alphav)`, where b abd `alpha` are positive constant and v is the velocity. At t=0 it is moving with velocity `v_(0)`. At what time does it come to rest ?

Similar Questions

Recommended Questions