Passage VI Two particles collide when they are at same position at same time.
The two particles are at minimum distance after time t=…………..s.

Passage VI Two particles collide when they are at same position at same time. Displacement time equation of two particles moving along x-axis are x_(1)=(8+3sinomegat)m and x_(2)=(4cosomegat)m Here, omega=pirad/s The two particles will collide after time t=...................s.

A particle starts from rest and has velocity kt after time t. The distance travelled in time t is-

Two particles are in SHM in a straight line about same equilibrium position. Amplitude A and time period T of both the particles are equal. At time t=0 , one particle is at displacement y_(1)=+A and the other at y_(2)=-A//2 , and they are approaching towards each other. after what time they cross each other?

Two particles A and B are moving uniformly in a plane in two concentric circles. The time period of rotation is T_(A) = 8 minute and T_(B) = 11 minute respectively for the two particles. At time t = 0 , the two particles are on a straight line passing through the centre of the circles. The particles are rotating in same sense. Find the minimum time when the two particles will again fall on a straight line passing through the centre.

A particle is dropped from point P at time t = 0. At the same time another particle is thrown from point O as shown in the figure and it collides with the particle P. Acceleration due to gravity is along the negative y-axis. If the two particles collide 2 s after they start, find the initial velocity v_0 of the particle which was projected from O. Point O is not necessarily on ground.

A projectile is projected with some initial velocity and some initial angle of projection. A wind is also blowing, due to which constant horizontal retardation a is imparted to the particle in the plane of motion. It is found that, the particle is at same height at two different time t_(1) & t_(2) and particle is at same horizontal distance at two different time t_(3) & t_(4) Angle of projection of particle is :-

A particle on the trough of a wave at any instant will come to the mean position after a time ( T = time period)