If a particle starts moving along x-axis from the origin with initial velocity `u=1ms^-1` and acceleration `a=2ms^-2`, the relationship between displacement and time is
`x=ut+1/2at^2=1xxt+1/2xx2xxt^2=t+r^2`
Draw the displacement (x)-time (t) graph.

If a particle starts moving along x-axis from origin with initial velocity u=2m/s and acceleration 4m//s^(2) the relation between displacement and time is given as x=2t+2t^(2) . Draw the displacement time graph for t ul(gt)0 .

A particle starts moving with initial velocity u=25ms^-1 and retardation a=-2ms^-2 . Draw the velocity-time graph.

A particle starts moving with initial velocity u=25ms^-1 and retardation a=-2ms^-2 . Draw the velocity-time graph.

If a particle starts moving with initial velocity u=1ms^-1 and acceleration a=2ms^-2 , the veloctiy of the particle at any time is given by v=u+at=1+2t . Plot the velocity-time graph of the particle.

If a particle starts moving with initial velocity u=1ms^-1 and acceleration a=2ms^-2 , the veloctiy of the particle at any time is given by v=u+at=1+2t . Plot the velocity-time graph of the particle.

If a particle starts moving along a straight ine withinitial velocity u under contact acceleration a, its displacement with time is given by the relation x=ut+(1)/(2)at^2 Q. Differentiation of x w.r.t. t will be

If a particle starts moving along a straight ine withinitial velocity u under contact acceleration a, its displacement with time is given by the relation x=ut+(1)/(2)at^2 Q. Differentiation of x w.r.t. t will be

If a particle starts moving along a straight ine withinitial velocity u under contact acceleration a, its displacement with time is given by the relation x=ut+(1)/(2)at^2 Q. Differentiation of x w.r.t. t will be

If a particle starts moving along a straight ine withinitial velocity u under contact acceleration a, its displacement with time is given by the relation x=ut+(1)/(2)at^2 Q. The concerned deviation of positon time realtion w.r.t will be. Differentiation of above result w.r.t. t will be

Relation between displacement x and time t is x=2-5t+6t^(2) , the initial acceleration will be :-