Two particles start simulataneously from the same point and moves along two straight lines inclined at angle `alpha`, one with uniform velocity `v_(0)` and other from the rest with uniform acceleration, `a_(0)`. After how much time their relative velocity is minimum and what is it equal to?

Two cacar starts together from the asme point and move along two straight lines inclined at an angle theta , one moving with velocity (u) and the other from rest with a uniform acceleration (a). Show that the least relative velocity between then is u sin theta and it occurs after a time t= ( u cos theta) //a .

Two particles start simultaneously from a point with equal velocities v each along two straight inclined at 60^(@) . Find their relative velocity

Two particles start simultaneously from the same point and move along two straight lines. One with uniform velocity v and other with a uniform acceleration a. if alpha is the angle between the lines of motion of two particles then the least value of relative velocity will be at time given by

Two particles start their journey at the same time from the same point following two straight lines inclined with each other at an angle theta . One moves with a uniform velocity u and other, starting from rest, moves with an acceleration a. show that the relative velocity between them will be minimum after a time u cos theta//a and its value is u sin theta .

A car starts to move from rest with uniform acceleration 10 ms^(-2 ) then after 5 sec, what is its velocity?

Two particles start moving simultaneously from points (0, 0) and (1, 0) respectively in the OXY plane with uniform velocities v_(1) and v_(2) as shown in the figure. It is found that they collide. Then

Two particles start moving simultaneously from points (0, 0) and (1, 0) respectively in the OXY plane with uniform velocities v_(1) and v_(2) as shown in the figure. It is found that they collide. Then