Want this question answered?
Any object can be used as the reference. There's no such thing as an 'unmoving' object. It's only unmoving relative to itself or to other things that are moving exactly the same as the object. That's the whole reason that you need a reference point.
negative
A person standing on the ground. For the person on the train, ground is moving and the train is stationary.
To support you in specifying how the reference point is placed and how the object is moved away from the reference point.
Frame of Reference :A set of axes, taken as being for practical purposes at rest, that enables the position of a point or body in space to be defined at any instant of time.Reference Point : A point with respect to which other points, lines etc. are referred, usually in terms of distance or direction, or both.
Any object can be used as the reference. There's no such thing as an 'unmoving' object. It's only unmoving relative to itself or to other things that are moving exactly the same as the object. That's the whole reason that you need a reference point.
negative
The time and distance between two reference points, then compute the average speed.
Nothing will happen. Nothing will happen. I think.
A reference point is part of the definition of movement or displacement. The difference, over time, of your distance or orientation to a given reference point or points defines movement.
A reference point is part of the definition of movement or displacement. The difference, over time, of your distance or orientation to a given reference point or points defines movement.
Deciding if an object is moving isn't as easy as it sounds. We can only discern relative motion and we have to use reference points. (A reference point is an object that is not moving that you compare to the other object.) An object is in motion when it's distance from the reference point is changing.For example, you could say that you and this computer are not moving. Other than your eyes blinking, chest pumping up and down, and you clicking on the mouse, you and this computer are not in motion. Since the distance between you and the computer is not changing, you can conclude that neither you or the computer are moving.
Determine the position of the object at two different times. The vector joining the first with the second of those positions points in the direction of the objects motion.
it depends on the reference points, that is form where the object is viewed...when sun is viewed form earth, it moving...but earth is also moving...when the rotation of the earth is stopped, then the sun is at a constant position...thereforean object position relative to another object is changingonly when the reference point changes..
To help you state how the reference point placement is and how the object is moved from the reference point
2
motion occurs when an object changes its position relative to a reference point.