Description of position depends on a reference point because there is no other way to do it. A reference point is observable, so based on that observation, you can then describe where something else is.
All locations are described that way, although there are many different kinds of reference points that are used. For example, a street address, 233 Main St., uses a street as a reference point. Mathematically, a Cartesian coordinate system is the most commonly used way to establish reference points. The use of lines of latitude and longitude allow is to locate anything on the surface of the Earth. If we wishes to locate another planet than the Earth, in our solar system, we would start by describing the distance of that planet from the sun.
A description of position depends on a reference point because position is a relative concept. The location of an object can only be described in relation to another object or a fixed point. Without a reference point, it would be impossible to accurately determine the position of an object in space.
No, the displacement arrow does not depend on the choice of reference point. It only indicates the change in position of an object from its initial position to its final position. Regardless of the reference point chosen, the displacement arrow will always show the same magnitude and direction of the change in position.
The position of an object is described by its location in space relative to a reference point or coordinate system. This typically includes its distance and direction from the reference point in one, two, or three dimensions.
No, the reference point does not depend on direction. It remains fixed regardless of the direction in which it is being measured.
1.)Distance from the reference point. 2.)A reference point. 3.)Direction from the reference point.
No, the trajectory of a moving point does not depend on the chosen reference frame. The trajectory is a physical path that the point follows through space, and it remains the same regardless of the reference frame used to analyze it.
The position of an object is described by its location in space relative to a reference point or coordinate system. This typically includes its distance and direction from the reference point in one, two, or three dimensions.
Its position, relative to the point of reference.
No, the reference point does not depend on direction. It remains fixed regardless of the direction in which it is being measured.
No, the displacement arrow does not depend on the choice of reference point. It only indicates the change in position of an object from its initial position to its final position. Regardless of the reference point chosen, the displacement arrow will always show the same magnitude and direction of the change in position.
1.)Distance from the reference point. 2.)A reference point. 3.)Direction from the reference point.
A landmark - or reference point.
Earth's surface is a common reference point for determining position and motion.
The medical term for position above the point of reference is "superior."
A change in an objects position relative to a reference point is called motion.
A change in an objects position relative to a reference point is called motion.
A change in an objects position relative to a reference point is called motion.
the answer is motionAn angle.DisplacementMotion is a change in the position of an object in relation to a reference point.