Figure shows the velocity-time graph of a particle moving in a straight line.
(i) State the nature of motion of particle. (ii) Find the displacement of particle at t = 6 s. (iii) Does the particle change its direction of motion? (iv) Compare the distance travelled by the particle from 0 to 4 s and from 4 s to 6 s. (v) Find the acceleration from 0 to 4 s and retardation from 4 s to 6 s.

Question

Figure shows the velocity-time graph of a particle moving in a straight line.

(i) State the nature of motion of particle. (ii) Find the displacement of particle at t = 6 s. (iii) Does the particle change its direction of motion? (iv) Compare the distance travelled by the particle from 0 to 4 s and from 4 s to 6 s. (v) Find the acceleration from 0 to 4 s and retardation from 4 s to 6 s.

KnowledgeBoat · Accepted Answer

(i) As we observe the graph, we find that, the nature of motion of particle is that, the particles are uniformly accelerated from 0 to 4s and then uniformly retarded from 4s to 6s. (ii) As we know, displacement of particles can be obtained by finding the area enclosed by the graph in that part with the time axis up to that instance. At t = 6 s, Displacement = area of triangle Substituting the values in the formula above, we get, Hence, Displacement of particle at t = 6 s is 6 m (iii) No, the particle does not change its direction of motion. (iv) At t = 0 to 4 s, Distance covered = area of triangle Substituting the values in the formula above, we get, Hence, Distance covered between 0 to 4 s = 4 m At t = 4 s to 6 s, Distance covered = area of triangle Substituting the values in the formula above, we get, Hence, Distance covered between 4s to 6 s = 2 m **Distance covered between 0 to 4 s : Distance covered between 4 s to 6 s = 4 : 2 = 2 : 1** (v) Acceleration in part 0 s to 4 s = slope of graph Hence, Acceleration in part 0 s to 4 s = 0.5 m s^-2 As we know, Retardation in part 4 s to 6 s = slope of graph Acceleration = -1 ms^-2 and as we know retardation is negative acceleration Hence, Retardation in part 4 s to 6 s = 1 m s^-2

Physics

Motion in One Dimension

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Figure shows the velocity-time graph for the motion of a body. Use it to find the displacement of the body at t = 1 s, 2 s, 3 s and 4 s, then draw the displacement-time graph for it on figure (b).

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Physics

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Related Questions

Figure shows the velocity-time graph for the motion of a body. Use it to find the displacement of the body at t = 1 s, 2 s, 3 s and 4 s, then draw the displacement-time graph for it on figure (b).

The velocity-time graph of a moving body is given below in figureFind —(i) The acceleration in parts AB, BC and CD.(ii) Displacement in each part AB, BC, CD, and(iii) Total displacement.

The velocity-time graph of a moving body is given below in figure
Find —
(i) The acceleration in parts AB, BC and CD.
(ii) Displacement in each part AB, BC, CD, and
(iii) Total displacement.