(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.

A particle is moving in a straight line with the relation between the time and the distance in such a way that s=t^3-9t^2+24t-18 . The value of its velocity when the acceleration is zero is

A particle moves along a straight line such that its displacement at any time t is given by s= (t^3- 6t^3 +3t+4) metres. The velocity when the acceleration is zero is

The velocity of an object moving in a straight line path is given as a function of time by v=6t-3t^2 , where v is in ms^-1 , t is in s. The average velocity of the object between , t=0 and t=2 s is

A particle of mass m and charge (-q) enters the region between the two charged plates initially moving along x-axis with speed V_(x) (as in the fig.). The length of plate is L and an uniform electric field E is maintained between the plates. Show that the vertical deflection of the particle at the far edge of the plate is qEL^(2)//(2mV_(x)^(2)) . Compare this motion with motion of a projectille in gravitational field discussed in section 4.10 of 1^(st) Year Textbook of Physics.