Wiki User
∙ 13y agoIt is moving at a constant speed with no acceleration nor decceleration
Wiki User
∙ 13y agothe body is in accelerated motion.
The motion of a body towards and from some fixed point. It can also be used to find the acceleration (or deceleration) in the same direction or the total distance from the fixed point in the direction of motion. But the graph gives no information at all on motion in any other direction. So, the horizontal displacement of a rocket going straight up would always be 0!
The expected answer - of either a position time graph or a speed time graph - is wrong. That is because these take account of motion in the line joining the origin to the moving body but not any motion in a transverse direction.
As the body is at rest, its distance from some point is not changing, so the graph will be a straight line parallel to the time axis (including the possibility of being on the time axis).
distance = speed x time the speed is the slope of the line which if parallel to X axis is zero - that means speed = 0 and distance is not changing with time, so the object is at rest ( not moving) relative to the observer
uniformly accelerated motion
yo yo
If the displacement-time graph of a body is a straight line, it indicates that the body is moving with a constant velocity. The slope of the line represents the velocity of the body - a steeper slope indicates a higher velocity.
If the velocity-time graph of a body is a straight line, it indicates that the body is moving with constant acceleration. The slope of the line represents the acceleration of the body: a steeper slope indicates a greater acceleration. The area under the graph represents the displacement of the body.
If the distance-time graph is a straight line with a constant angle with the time axis, it indicates that the body is moving with a constant speed. The slope of the line represents the speed of the body.
the body is in accelerated motion.
Uniform motion refers to motion at a constant speed in a straight line, while non-uniform motion involves changing speed, direction, or both. Uniform motion can be described by a straight line on a distance-time graph, while non-uniform motion would have a curved line.
The shape of the speed-time graph for an object moving with variable speed would depend on how its speed changes over time. It could be linear if the speed changes at a constant rate (acceleration or deceleration), curved if the acceleration is not constant, or a combination of different shapes if the speed fluctuates.
The graph of the motion of a body falling vertically that reaches a terminal speed would show an initial acceleration until the body reaches its terminal velocity. At this point, the graph would level off, showing constant velocity as the body falls continuously.
The motion of a body towards and from some fixed point. It can also be used to find the acceleration (or deceleration) in the same direction or the total distance from the fixed point in the direction of motion. But the graph gives no information at all on motion in any other direction. So, the horizontal displacement of a rocket going straight up would always be 0!
The displacement-time graph for a body moving in a straight line with uniformly increasing speed would be a straight line with a positive slope. As time increases, the displacement of the body also increases at a constant rate.
Linear Motion is motion of object/body along a straight line.Random Motion is the motion of an object/body along a disordered or irregular line.