The velocity V of a particle at time t is given by V = `at + b/(t+c)` . The dimensions of a, b and c are respectively--------.

The velocity of a particle in time t is v = at + (b)/(t+c) . The dimension of a, b and c are

The velocity of a particle (v) at an instant 't' is given by v = at + bt^(2) , the dimension of b is

The equation of state of a gas is given by (p+(a)/V^(3))(V-b^(2))=cT where p, V and T are pressure volume and temperature respectively and a, b,c are constants. The dimensions of a and b are respectively

The position of one particle is given by s(t) = V_0alpha[1+e^-(alphat)] . Find out the dimension of alpha .

The distance x of a particle from a fixed point at time t is given by, x = 5 + A sin 2t + B cos 2t, where A and b are given to be 3 and 4 respectively. However, it is found on measurement that there is a 1% erroe in the maximum value of x and this is due to an error in A only. Find the percentage error in A.

The velocity of a particle moving in a straight path is given by v=16t-4t^(2) where v and t measured in ft/s and second units respectively. If the initial displacement be 10 ft, find the displacement of the particle in t seconds.

The velocity v of a particle is related to time t as v = 4+2 (c_(1)+c_(2)t) , where c_(1) and c_(2) are constants . Find out the initial velocity and acceleration.

The velocity of a moving particle is given by v = 6 +18t + 9t^(2) (x in metre t in second ) what is its acceleration at t = 2 s?