`S=v_(0)t+(1)/(2)(at)^(s)`. s = displacement, `v_(0)`= initial velocity, a= acceleration and t= time. Check the dimensional validity of the following equation.

F=(mass")/(t) where m= mass ,a= acceleration, s= distance and t= time. Check the dimensional validity of the following equation.

Which equation are dimensionally valid out of following equations (i) Pressure P= rho gh where rho = density of matter, g= acceleration due to gravity. H= height. (ii) F.S =(1)/(2) mv^(2)-(1)/(2) mv_(0)^(2) where F= force rho = displacement m= mass, v= final velocity and v_(0)= initial velocity (iii) s=v_(0)t+(1)/(2) (at)^(2) s= dispacement v_(0)= initial velocity, a= accelration and t= time (iv) F=(mxx a xx s)/(t) Where m= mass, a= acceleration, s= distance and t= time

The intial velocity of a particle is u (at t=0) and the acceleration is given by f=at. Which of the following relations is valid ?

If x, v and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?

Explain by drawing graphs of displacement x(t) to t , velocity v(t) to t and acceleration a(t) to t of SHM for initial phase zero.

Derive the equations of motion by using Velocity to Time graph. (a) v= u + at (b) s = ut + (1)/(2) at^(2) Where , v= Final velocity of an object . u= Initial velocity of an object . a = Acceleration of an object . t= Time duration .

If v=(t^(2)-4t+10^(5)) m/s where t is in second. Find acceleration at t=1 sec.

A travelling harmonic wave on a string is described by y(x,t) = 7.5 sin (0.005 x + 12t+ pi//4) (a) what are the displacement and velocity of oscillation of a point at x=1 cm, and t=1s? Is this velocity equal to the velocity of wave propagation? (b) Locate the points of the string which have the same transverse displacements and velocity as the x=1 cm point at t=2s, 5s and 11s

The acceleration (a) of a particle moving in a straight line varies with its displacement (s) as a=2s+1 . The velocity of the particle is zero at zero displacement. Find the corresponding velocity-displacement equation.

A point moves with uniform acceleration and v_(1), v_(2) , and v_(3) denote the average velocities in the three successive intervals of time t_(1).t_(2) , and t_(3) Which of the following Relations is correct?.