lf x = a + bt + `ct^(2)`, where x is in metre and t in seconds, what is the unit of c?

Displacement of a particle is given by the expression x = 3 t ^ { 2 } + 7 t - 9 , where x is in meter and t is in seconds. What is acceleration ?

The position x of a particle with respect to time t along x is in given by x =9t^2-t^3 where x is in meters and t in second. What will be the position of this particle when it achieves maximum speed along the "+x directions?

A transverse wave propagating on a stretched string of linear density 3 xx 10^(-4) kg m^(-1) is represented by the equation y = 0.2 sin (1.5 x + 60 t) Where x is in metres and t is in seconds . The tension in the string (in newtons) is :

The displacement y of a wave travelling in the x- direaction is given by y = 10^(-4) sin (600t -2x + pi//3) Where x is expreseend in metres and t is seconds. What is the speed of the wave motion (in ms^(-1) ) ?

The equation of a wave is y = 0.1 sin (100 pi t - kx) where x , y are in metres and t in seconds . If the velocity of the wave is 100 m/s , then the value of k is

A ball is thrown vertically upwards, moves according to the law s=13.8t-4.9t^(2) where s is in metres and t is in seconds. (i) Find the acceleration at t = 1 (ii) Find velocity at t = 1 (iii) Find the maximum height reached by the ball?

The equation of motion of a particle started at t=0 is given by x=5sin(20t+pi/3) , where x is in centimetre and t in second. When does the particle a. first come rest b. first have zero acceleration c. first have maximum speed?

A wave travels in a medium according to the equation of displacement given by y (x , t) = 0.03 sin {pi (2t - 0.01 x)} where y and x are in metres and t in seconds . The wavelength of the wave is ………. .