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1.)Distance from the reference point. 2.)A reference point. 3.)Direction from the reference point.
To identify and objects location you need three pieces of information. These are a reference point, a distance from the reference point, and a direction from the reference point.
Displacement.
i don't think it does because reference point is a point with other points and lines connected to it so it doesn't depend on direction
This term is called displacement.
1.)Distance from the reference point. 2.)A reference point. 3.)Direction from the reference point.
To identify and objects location you need three pieces of information. These are a reference point, a distance from the reference point, and a direction from the reference point.
Displacement.
One needs the direction.
the velocity and acceleration Not really. The direction is implied by the description of the distance axis, so as you go to the right on the graph it represents greater distance from the point which you have chosen to represent your point of reference. So you could define it for example as the distance east of your start point, or the distance north from your start point, or just the distance in any direction etc. If your description does not specify a direction, then all you can say is how far from the start you are, with no other information on compass direction etc.
In two dimensional space, the x-cordinate of a point is usually the distance of the point from a reference point measured in the horizontal direction.
i don't think it does because reference point is a point with other points and lines connected to it so it doesn't depend on direction
This term is called displacement.
It will be a straight horizontal line, whose height will be the distance of the depot from the reference point - the point from which distances are measured.It will be a straight horizontal line, whose height will be the distance of the depot from the reference point - the point from which distances are measured.It will be a straight horizontal line, whose height will be the distance of the depot from the reference point - the point from which distances are measured.It will be a straight horizontal line, whose height will be the distance of the depot from the reference point - the point from which distances are measured.
An object is in motion only if its distance from a reference point is changing. The average speed of the object is given by the object's rate of change of displacement from the reference point over time.
It shows the speed of an object in a direction towards or away from the reference point. This is not the speed of the object because any motion in a transverse direction is ignored. For example, even if a racing car is going at top speed around the reference point on a circular track, the distance v time graph will be a horizontal line. The slope will be zero.
Displacement includes the distance between the starting and ending points and the direction in which you travel.