You cannot. A distance vs time graph only measures radial distance - that is, distance from the origin to the object. If the object is going around the origin along a circular path, the distance vs time graph will not show any change in distance.
The [incorrect] answer that you are required to give is that the graph will be a horizontal line during that period. But as explained above, the horizontal graph only means the object has no movement towards or away from the origin, not that it has no movement.
The speed of the object is represented by the slope of the line. So the slope at any given point would be the velocity. For example, a graph of y=3 would be a horizontal line and slope would be 0, so velocity is 0. For the line y=x, the slope of the line is one, so the velocity is one.
On a velocity vs time graph, an object that is motionless is represented by a horizontal line through the zero velocity point.
A horizontal line on a distance-time graph means the object is at rest.
It means the item represented by the graph is not moving. Thus the speed is 0.
horizontal line parallel to the x-axis
horizontal
Not necessarily. If the horizontal line is laying on top of the x-axis, then the speed is zero at any time, and the object isn't moving. But if the horizontal line is parallel to the x-axis, then the object is moving with constant speed.
If the object is moving along a horizontal surface with a constant acceleration,then the net vertical force on it is zero, and the net horizontal force on it is(the pushing force) minus (any kinetic friction force where it rubs the surface).The numerical value of that net force is(the acceleration) times (the object's mass).
it means the object is moving at a constant speed
A motion with a constant speed will always be moving the same speed A motion with a constant acceleration will constantly be gaining speed, and does not remain moving at the same speed.
The graph of acceleration vs time for an object moving at constant velocity is a straight horizontal line that coincides with the x-axis, i.e. it's the line [ y = 0 ].
Only if the direction is constant and the speed is constant.
That the object is moving at a constant speed
Not necessarily. If the horizontal line is laying on top of the x-axis, then the speed is zero at any time, and the object isn't moving. But if the horizontal line is parallel to the x-axis, then the object is moving with constant speed.
If the object is moving along a horizontal surface with a constant acceleration,then the net vertical force on it is zero, and the net horizontal force on it is(the pushing force) minus (any kinetic friction force where it rubs the surface).The numerical value of that net force is(the acceleration) times (the object's mass).
a "body" "moving body" an "object" is moving with constant velocity. [OR] a "body" is moving with constant velocity.
determine if the momentum of an object moving in a circular path at constant speed is constant.
If it is a horizontal straight line, it means the object is moving at constant velocity. If it is a sloped line, it means the object is accelerating.
determine if the momentum of an object moving in a circular path at constant speed is constant.
Since the object is moving at a constant speed, the net force on it must be zero.If I'm applying a constant horizontal force, then the frictional force must be equal to my force = 600N and in the opposite direction to my force.
The condition for an object to stay at rest or if moving, moving at a constant velocity is that the sum of forces acting on the object be zero or that no force acts on the object.
If the curve is horizontal, then the speed is constant. If that horizontal graph lies on the x-axis, then the constant speed is zero, and the object is stationary.
It indicates that the object in question is moving at a constant velocity in the radial direction. It gives no information about motion in the transverse direction.