Particle A and B are moving in coplanar circular paths centred at O. They are totating in the same sense. Time periods of rotation of A and B around O are `T_(A)" and "T_(B)`, respectively, with `T_(B)gtT_(A)`. Time required for B to make one ratation around O relative to A is :

Particles A and B are moving with constant velocities along x and y axis respectively, the graph of separation between them with time is

A system of binary stars of mass m_(A) and m_(B) are moving in circular orbits of radii r_(A) and r_(B) respectively. If T_(A) and T_(B) are at the time periods of masses m_(A) and m_(B) respectively then

A particle of mass m moves on a circular path of radius r . Its centripetal acceleration is kt^(2) , where k is a constant and t is time . Express power as function of t .

Two electric lamps A and B radiate the same power. Their filaments have the same diemensions, and have emissivities. e_(A) and e_(B) . Their surface tempratures are T_(A) an T_(B) . The ratio T_(A)//T_(B) will be equal to

At t=0 two trucks A and B were at same point on the road . At t=t_(1) , (motion of trucks A and B is represented by bold and dotted lines respectively) :-

A and B are moving with the same speed 10m/s in the direction E-30^(@)-N and E-30^(@)-S respectively. Find the relative velocity of A w.r.t. B.

If the force is given by F=at+bt^(2) with t is time. The dimensions of a and b are

Two particle A and B start moving due to their mutual interaction only. If at any tiem 't', vec(a)_(A) and vec(a)_(B) are their respective accelerations, vec(v)_(A) and vec(v)_(B) are their respective velocities, and upto that time W_(A) and W_(B) are the work done on A and B respectively by the mutual force, m_(A) and m_(B) are their masses respectively, then which of the following is alwys correct.

Buses A and B are moving in the same direction with speed 20 ms^(-1) and 15 ms^(-1) respectively. Find the relative velcoity of A w.r.t. B and relative velocity of B w.r.t. A.