The car start from rest at x=0 and is subjected to an acceleration shown by the a-s graph.Draw the v-s graph and determine the time needed to travel 60 m.

A train starts from rest at S = 0 and is subjected to an acceleration as shown in figure. Then,

The jet plane starts from rest at s =0 and is subjected to the acceleration shown. Determine the speed of the plane when it has travelled 60 m.

A particle starts from rest at t=0 and undergoes an acceleration as shown in figure. Draw the velocity-time graph of the motion of the particle during the interval from zero to 4 second.

Starting from rest at s=0,a boat travels in a straight line with an acceleration on as shown by the a-s graph. Determine the boat's speed at s=40,90 .

A particle starting from rest moves in a straight line with acceleration as shown in the a-t graph. Find the distance (in m) travelled by the particle in the first four seconds from start of its motion. Q

The v-s graph describing the motion of a motorcycle is shown in figure. Construct the a-s graph of the motion and determine the time needed for the motorcycle to reach the position s=120 m. Given In 5 = 1.6.

A particle starts from rest and accelerates as shown in the graph .Determine (a)the particle's speed at t=10 s and t=20 s and (b)the distance travelled in the first 20 s.

A car begains from rest at time t = 0 , and then acceleration along a straight track during the interval 0 lt t le 2 s and thereafter with constant velocity as shown in figure in the graph. A coin is initially at rest on the floor of the car. At t = 1 s , the coin begains to slip and its stops slipping at t = 3 s . The coefficient of static friction between the floor and the coin is (g = 10 m//s^(2))

At t=0 , a particle starts from reat and moves along a straight line, whose acceleration-time graph is shown in . . Convert this graph into velocity-time, From the velocity-time graph, find the maximum velocity attained by the particle. Also find from v-t graph, the sisplacement and distance travelled by the particle from 2 to 6 s ,

A car acquires a velocity of 72 km h^(-1) In 10 s starting from rest. Calculate : (i) the acceleration, (ii) the average velocity, and (iii) the distance travelled in this time.