If the position of a particle along Y axis is represented as a funtion of time t by the equation `y(t)=t^(3)` then find displacement of the particle during the period t to `t+Deltat`

The position of a particle varies with function of time as y=(4sin t+3cos t)m . Then the maximum displacement of the particle from origin will be

The motion of a Particle moving along then y- axis is represented as y = 3 ( t – 2) +5(t – 2 ) ^2 Identify the correct statement

The motion of a Particle moving along then y- axis is represented as y = 3 ( t – 2) +5(t – 2 ) ^2 Identify the correct statement

The displacement of a particle is represented by the equation y = sin^3 omega t . The motion is

The position of a particle along X-axis at time t is given by x=2+t-3t^(2) . The displacement and the distance travelled in the interval, t = 0 to t = 1 are respectively

The position of a particle along X-axis at time t is given by x=2+t-3t^(2) . The displacement and the distance travelled in the interval, t = 0 to t = 1 are respectively

The displacement of a particle is represented by the equation y= sin^(3) omega t . The motion is………..

[" Velocity of a particle moving along "x" -axis "],[" as a function of time is given as "v=(4-],[t^(2))m/s," where "t" is time in second.The "],[" displacement of particle during "t=0s" to "t],[=1s" is "]

The position of the particle moving along x-axis is given by x=2t-3t^(2)+t^(3) where x is in mt and t is in second.The velocity of the particle at t=2sec is