A body starting with a velocity 'v' returns to its initial position after 't' second with the same speed, along the same line. Acceleration of the particle is

Three particles starts from origin at the same time with a velocity 2 ms^-1 along positive x-axis, the second with a velocity 6 ms^-1 along negative y-axis, Find the velocity of the third particle along x = y line so that the three particles may always lie in a straight line.

A man in a lift throws a ball vertically upwards with a velocity v and catches it (i) after t_(1) second when the lift is ascending with an upward acceleration of 'a' and (ii) after t_(2) second when the lift is descending downward with the same acceleration 'a'. THe velocity of the ball v is

A particle strikes elastically with another particle with velocity V after collision its move with half the velocity in the same direction find the velocity of the second particle if it is initially at rest

A body starts from origin and moves along x - axis so that its position at any instant is x=4t^(2)-12t where t is in second. What is the acceleration of particle?

A particle is moving along x-direction with a constant acceleration a. The particle starts from x=x_0 position with initial velocity u. We can define the position of the particle with time by the relation x=x_0+ut+(1)/(2)at^2 plot the position of the particle in relation with time is following situations (i) If initial position of the particle is on negativ x-axis, initial velocity is positive and acceleration is negative. (ii) If initial position is positive, initial velocity is negative and acceleration is positive.

A force exerts an impulse Ion a particle changing its speed from initial velocity u to final velocity 2u . The applied force and the initial velocity are oppositely oriented along the same line. The work done by the force is

A force exerts an impulse Ion a particle changing its speed from initial velocity u to final velocity 2u . The applied force and the initial velocity are oppositely oriented along the same line. The work done by the force is

Assertion : A particle performing SHM at certain instant is having velocity v. It again acquire a velocity v for the first time after a time interval of T second. Then the time period of oscillation is T second. Reason : A particle performing SHM can have same velocity at two instants in one cycle.

A particle moves on a straight line with velocity 2 m/s covers a distance of 5 m, returns back to initial position along same path with velocity 4 m/s. The distance and displacement covered by particle are respectively.

At any instant, the velocity and acceleration of a particle moving along a straight line are v and a. The speed of the particle is increasing if