A particle is dropped from a height 12 g metre and 4 s after another particle is projected from the ground towards it with a velocity `4 g ms^(-1)` The time after which the second particle meets first is

A particle is projected from ground with velocity 40sqrt(2)m//s at 45^(@) . At time t=2s

A particle is dropped from a height h and at the same instant another particle is projected vertically up from the ground. They meet when the upper one has descended a height h/3. Find the ratio of their velocities at this instant.

A stone is dropped from a height of 100m .At the same instant another stone is projected vertically upwards with velocity of 50ms^(-1) .If g=10ms^(-2) ,the height from the ground at which the 2 stones meet is

A particle is projected from ground with velocity 3hati + 4hati m/s. Find range of the projectile :-

A particle of mass 200 g is dropped from a height of 50 m and another particle of mass 100 g is simultaneously projected up from the ground along the same lime, with a speed of 100 m//s . The acceleration of the centre of mass after 1 sec is.

Height of a tower is 125m and a particle is dropped from rest from the top of the tower. After two seconds of its fall, another particle is projected downwards with a speed u such that both the particles reach the ground simultaneously. What is the value of u?

A particle is projected from horizontal making an angle of 53^(@) with initial velocity 100 ms^(-1) . The time taken by the particle to make angle 45^(@) from horizontal is

A particle is projected vertically upwards and t second after another particle is projected upwards with the same initial velocity. Prove that the particles will meet after a lapse of ((t)/(2)+(u)/(g)) time from the instant of projection of the first particle.