A force `F` is given by `F = at + bt^(2)` , where `t` is time . What are the dimensions of `a and b`?

A force F is given by F = at+ bt^(2) , where t is time. The dimensions of a and b are

Velocity v is given by v=at^(2)+bt+c , where t is time. What are the dimensions of a, b and c respectively?

If force (F) is given by F = Pt^(-1) + alpha t, where t is time. The unit of P is same as that of

Consider the equation F=(a^(2))/(b)e^(-(bx)/(E )) where F is force x is distance E is energy and a, b are constants. What are the dimensions of a and b?

For a body in a uniformly accelerated motion, the distance of the body from a reference point at time 't' is given by x = at + bt^2 + c , where a, b , c are constants. The dimensions of 'c' are the same as those of (A) x " " (B) at " " (C ) bt^2 " " (D) a^2//b

Force acting on a particle is given by F=(A-x)/(Bt) , where x is in metre and t is in seconds. The dimensions of B is -

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

Given F = (a//t) + bt^2 where F denotes force and t time. The diamensions of a and b are respectively:

A particle is acted upon by a force given by F=(12t-3t^(2)) N, where is in seconds. Find the change in momenum of that particle from t=1 to t=3 sec.

The velocity of a body is given by v=At^2+Bt+C . If v and t are expressed in SI, what are the units of A,B and C?