(A): The path followed by one projectile as observed by another projectile is a straight line in uniform gravitation field.
(R): The relative velocity between two projectiles at a given place doesn't change with time. Because their relative acceleration is zero.

Assertion: The path of one projectile as seen for another projectile is a striaght line. Reason: Two projectiles projected with same speed at angles alpha and (90^(@)-alpha) have same range.

Two train are moving in a straight line in the same direction with a speed of 80 km/h. The relative velocity of one trains w.r.t. each other is

(i) Two particles are in projectile motion. The path of one particle as seen by another particle will be straight line. (ii) In order to cross a river of uniform width ( flow is also uniform ) in shortest time, swimmer must swim in perpendicular direction of river flow.

A projectile of mass 2kg has velocities 3m//s and 4m/s at two points during its flight in the uniform gravitational field of the earth. If these two velocities are perpendicular to each other, then the minimum kinetic enerty of the particle during its flight is

Two cars are moving is one a same line dimension in opposite direction with the same speed v. The relative velocity of two cars w.r.t. each other is

In the following questions a statement of assertion (A) is followed by a statement of reason ( R). A: Path of a projectile with respect of another projectile is straight line . R : Acceleration of a projectile with respect to another projectile is zero.

For a particle moving in a straight line, the displacement of the particle at time t is given by S=t^(3)-6t^(2) +3t+7 What is the velocity of the particle when its acceleration is zero?

For a particle moving in a straight line, the displacement of the particle at time t is given by S=t^(3)-6t^(2) +3t+7 What is the velocity of the particle when its acceleration is zero?

Velocity of a body moving a straight line with uniform acceleration (a) reduces by (3)/(4) of its initial velocity in time t_(0) . The total time of motion of the body till its velocity becomes zero is

A particle is moving on a straight line with velocity (v) as a function of time (t) according to relation v = (5t^(2) - 3t + 2)m//s . Now give the answer of following questions : Velocity of particle when acceleration is zero is :