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Is magnitude in a straight line
That happens when the position at time "2" is the same as the position at time "1". In that case, since the difference in position is zero, the average velocity (during that time) is also zero. Note that the object under consideration may well have moved; in that case, it returned to its original position.
It's mean roads that take you on a place or church chicken
No. Displacement is how far an object is from its original position. This means that if an object traveled in a circle and returned to its original point, it will have a displacement of 0 while the distance will be whatever the circumference of the circle was. Hope that helps.
The location of an object is its position.
it gets larger
It increases.
after the removal of load if the object regains its original position is called elastic deformation ....If the object cant regain its original position even after the removal of applied load is called plastic deformation...
Is magnitude in a straight line
That happens when the position at time "2" is the same as the position at time "1". In that case, since the difference in position is zero, the average velocity (during that time) is also zero. Note that the object under consideration may well have moved; in that case, it returned to its original position.
The rock will break because it can be stretched no farther. An object stretched beyond its elastic limit may be deformed (adopt a new permanent resting shape) or break.
Unbalanced forces causes object's position to change, in which is known as acceleration. According to Newton's first law, an object will always be in the same position regardless if it is moving or not, unless an unbalanced force happens on it.
Potential Energy. That is, Energy of Position. An Object raised to a greater height than its original position will show an Increase in its Potential Energy.
It's mean roads that take you on a place or church chicken
No. Displacement is how far an object is from its original position. This means that if an object traveled in a circle and returned to its original point, it will have a displacement of 0 while the distance will be whatever the circumference of the circle was. Hope that helps.
The location of an object is its position.
If one knows the POSITION and SPEED of an object at a given time, one can then predict the position of that object relative to the original POSITION at any time afterwards. Also useful to know would be the DIRECTION in which it was moving - which would enable a more accurate prediction of it's subsequent position; and any rate of ACCELERATION (or its negative, deceleration), i.e. the rate of change of speed, as this would also affect the object's subsequent position.