The displacement versus time curve is given

`{:("Column-I"," Column-II"),("A) OA","P) velocity increases with time linearly"),("B) AB","Q) velocity decreases with time"),("C) BC","R) velocity is independent of time"),("D) CD","S) velocity is zero"):}`

Match the following columns {:(,"Column-I",,"Column-II"),("(A)",underset("satellite in circular orbit")("Time period of an earth"),"(p)","Independent of mass of satellite"),("(B)","Orbital velocity of satellite","(q)","Independent of radius of orbit"),("(C)","Mechanical energy of satellite","(r)","Independent of mass of earth"),(,,"(s)","None"):}

displacement versus time curve for a particle executing SHM is is as shown in figure. At what points the velocity of the particle is zero?

What is the relation between Velocity, displacement and time?

If net force on a system of particles is zero. Then {:(,"Column I",,"Column II",),((A),"Acceleration of centre of mass",(p),"Constant",),((B),"Velocity of centre of mass",(q),"Zero",),((C ),"Momentum of centre of mass",(r ),"May be zero",),((D),"Velocity of an individual particle of the system",(s),"May be constant",):}

The graph of displacement v/s time is given below. Its corresponding velocity-time graph will be :

The displacement -time (x– t) graph of a body is given as The corresponding velocity -time (v – t ) graph will be

The velocity of a particle is zero at time t = 2s, then

The displacement-time (x - t) graph of a body is given as The corresponding velocity -time (v - t) graph will be

The velocity of a boedy increases for some time, then attains a constnat value and finally the velocity decreases until the body stops. What will be the shape of the velocity-time graph ?

the displacement versus time relation for a disturbance travelling with velocity of 1500 m//s . Calculate the wavelength of the disturbance. .