Displacment x of a particle at time t is given by `x=At^(2)+Bt+C`, where A,B,Care constants .If v is its velocity, then :`4Ax-v^(2)=`

The relation between time t and distance x of a particle is given by t=Ax^(2)+Bx , where A and B are constants. Then the (A) velocity is given by v=2Ax+B (B) velocity is given by v=(2Ax+B)^(-1) (C ) retardation is given by 2Av^(2) (D) retardation is given by 2Bv^(2) Select correct statement :-

The displacement of a particle at time t is given by vecx=ahati+bthatj+(C )/(2)t^(2)hatk where a, band care positive constants. Then the particle is

The displacement (x) of a particle as a function of time (t) is given by x=asin(bt+c) Where a,b and c are constant of motion. Choose the correct statemetns from the following.

The displacement of a particle after time t is given by x = (k // b^(2)) (1 - e^(-bi)) . Where b is a constant. What is the acceleration fo the particle ?

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 :-

When a wave traverses a medium, the displacement of a particle located at 'x' at a time 't' is given by y = a sin (bt - cx) , where a,b and c are constants of the wave, which of the following is a quantity with dimensions?

Displacement (x) of a particle is related to time (t) as x = at + b t^(2) - c t^(3) where a,b and c are constant of the motion. The velocity of the particle when its acceleration is zero is given by: