The displacement of a particle as a function of time is shown in fig. The figure indicated that

If the time-displacement graph of a particle is parallel to time-axis, the velocity of the particle is

The displacement of particle along a straight line at time t is given by x = 2alpha + betat + gammat^2 . Find its acceleration.

The displacement equation of a particle moving along a straight line with uniform acceleration is x = v_0t + 1/2at^2 . Find the distance covered by the particle in the last second of its motion.

The speed time graph for a car is shown in the figure. find how far is the car travel in the first 4 seconds. Shade the area on the graph that represents the distance travelled by the car during the period.

The displacement of a particle ( in meter ) moving along x axis is given by x = 18 + 5t^2 . Calculate the instantaneous velocity at t = 2S and instantaneous acceleration.

In Fig 12,PS is a diameter of a circle whose radius is 6 cm.Two points Q and R are taken on PS such that PQ=QR=RS.Two semicircles are drawn with PQ and QS as their respective diameters as shown in the figure.Find the perimeter and the area of the shaded region shown in figure. (pi=3.14)

The speed time graph for a car is shown in the figure. Which part of the graph represents uniform motion of the car?

The distance x of a particle moving in one dimension, under the action of constant force is related to time t by equation. t = sqrt x + 3 where x in metre and t in second. Find the displacement of the particle when its velicity is zero.

In figure 12 PS is a diameter of a circle whose radius is 6cm . Two pint Q and R are taken on PS such that PQ= QR = RS . Two Semi-circles are drawn with PQ and QS as their respective diameters as shown in the figure. find the perimeter and the area of the shaded region shown in figure. (Take pi=3.14 )

The displacement y of a particle in a medium can be expressed as y =10^(-6) wSin(100t+20x), where t and x are in second and metre respectively. Calculate the speed of the wave.