Find the missin number x in the expression given below `A\sec^((at^(x))/A)` where s, displacement, t: time, a:acceleration.

If x denotes displacement in time t and x=a cost, then acceleration is :-

The equation of a transverse mechanical wave propagating along the 'x' axis is given by the expression y=2sin^(2)(3x+5t)+6 where y is displacement in 'm', x is position on the 'x' axis in 'cm', t is time in 'secs' Choose the correct option

If the displacement of a particle is given by s=2t^(3)-5t^(2)+4t-3 , then its displacement when acceleration is 14" ft/sec"^(2) , is

Write the relation between time period T, displacement x and acceleration a of a particle in S.H.M.

5.The displacement s of a particle at a time t is given by s=2t-5t+4t-3, find (i) the time when the acceleration is 14 ft/sec (ii) the velocity and the displacement at that time.

It is given that t= px^(2) + qx , where x is displacement and t is time. The acceleration of particle at origin is

If displacement x at time t is x=sqrt(1+t^(2)) , then acceleration is

A particle moves in a straight line obeying the relation x= t(t-1) where x= displacement in m and t= time in sec.Find the velocity of the particle when its displacement is zero.

A wave pulse is travelling on a string at 2 m/s. displacement y of the particle at x = 0 at any time t is given by y=2/(t^2+1) Find (i) Expression of the function y = (x, t) i.e., displacement of a particle position x and time t.