A body is projectd with the velcity ` (U_1)` from the point (A) as shown in Fig. 2. (d). 37. At the same time another body u2 is projected vertcally upwards with the velcoity ` u_2` from the point (B) .What should be the value of ` u_1//u_2` for both the bodies to collide ?
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A body is projected upwards with a velocity u . It passes through a certain point above the ground after t_(1) , Find the time after which the body passes through the same point during the journey.

A body is projected vertically upwards with speed u from the top of a tower. It strikes at the ground with speed 3u. What is (a) height of tower and (b) time take by the body to reach at the ground?

Assertion: If a body is dropped from the top of a twoer of height h and another body is thrown up simultaneously with velocity u from the foot of the tower, then both of them would meet after a time (h)/(u) . Reason: For a body projected upwards, the distance covered by the body in the last second of its upwards journey is always 4.9m irrespective of velocity of projection (g=9.8 m//s^(2))

A particle is projected vertically upwards from a point A on the ground. It takes t_(1) time to reach a point B but it still continues to move up. If it takes further t_(2) time to reach the ground from point B then height of point B from the ground is :-

Given that the drawn ball from U2 is white, the probability that head appeared on the coin

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.

Two particles, each of mass m, are connected by a light inextensible string of lenthe 2l . Initially they lie on a smooth horizontal table at points A and B distant l apart. The particle at A is projected across the table with velocity u. Find the speed with which the second particle begins to move if the direction of u is :- (i) along BA. (ii) at an angle of 120^(@) with AB (iii) perpendicular to AB. In each case calculate (in teerms of m and u) the impulsive tension in the string.

What is the speed of the body moving with uniform acceleration at the midpoint of two points on a straight line, where the speeds are u and v respectively?

A ball is thrown at different angles with the same speed u and from the same points and it has same range in both the cases. If y_1 and y_2 be the heights attained in the two cases, then find the value of y_1 + y_2 .

A particle of mass m_(0) is projected from the surface of body (1) with initial velocity v_(0) towards the body (2). As shown in figure find the minimum value of v_(0) so that the particle reaches the surface of body (2). Radius of body (1) is R_(1) and mass of body (1) is M_(1) . Radius body (2) is R_(2) and mass of the body (2) is M_(2) distance between te center the center of two bodies is D.