Answer:
The position-time graph and the velocity-time graph has been shown in the figure attached.
Step-by-step explanation:
Given:
For t = 0 s to t = 20 s,
The car moves with a constant velocity whose position-time and the velocity time graph has been shown with a red line.
For t = 20 s to t = 30 s,
The car moves with a constant acceleration whose position-time and the velocity time graph has been shown with a green line.
For t = 30 s to t = 50 s,
The car moves with a constant velocity whose position-time and the velocity time graph has been shown with a blue line.
For t = 50 s to t = 60 s,
The car moves with a constant deceleration whose position-time and the velocity time graph has been shown with a black line.
For a constant velocity, the velocity-time graph of the particle is a straight line parallel to a time axis and the position-time graph is a straight line inclined at some positive angle with the time axis.
For a constant acceleration, the velocity-time graph is a straight line incline at a positive angle with the time axis and the position-time graph is a parabolic curved line having upward concavity.
For a constant deceleration, the velocity-time graph is a straight line incline at a negative angle with the time axis and the position-time graph is a parabolic curved line having downward concavity.