Online Encyclopedia Search Tool

Your Online Encyclopedia


Online Encylopedia and Dictionary Research Site

Online Encyclopedia Free Search Online Encyclopedia Search    Online Encyclopedia Browse    welcome to our free dictionary for your research of every kind

Online Encyclopedia

Frame of reference

A frame of reference is a collection of conditions, axes, or assumptions which establish how something will be approached or understood. This article deals primarily with the general procedure for constructing a frame of reference within the science of physics.

A particular kind of reference frame is the inertial reference frame. It is the one in which the mathematical description of the trajectory of an object that "feels" zero absolute acceleration is simplest. If the effects of gravitation, such as that of Earth, can be ignored, the object either travels relative to the inertial frame of reference in a simple straight line at constant velocity or remains at a point in the frame (not moving). Also, all points in the inertial frame experience zero acceleration. It can be approximated by any non-rotating space station in orbit about the Sun or Earth. A frame of reference attached to the surface of Earth is both rotating and accelerated, but in many experiments it may be taken to be a good approximation of an inertial reference frame. This is true in particle physics (smashing gold atoms into lead, for example).

One may wonder here, "Acceleration relative to what?" The answer to the question is, "Relative to a nearby person in free fall, if you want a simple answer." A simple accelerometer is a mass attached to a spring. The end of the spring that is not attached to the mass is attached to the frame of reference at some point. If the point is undergoing acceleration, the elongation of the spring indicates the acceleration’s direction and magnitude.

The frame of reference always has an origin. Where the origin is to be placed does not depend on anything but the need to obtain experimental data as expeditiously or economically as possible (hence, one's belly button is not always acceptable as the origin). To the origin the physicist attaches one of four accelerometers. At some distance from the origin, he places the second accelerometer. Again, the location does not depend on anything other than expediency or economy. The third accelerometer is placed at some distance from the origin and another distance from the second accelerometer. The fourth accelerometer must be placed so that it is not in the plane that contains the origin, the second point and the third one, and should be roughly equidistant from the other accelerometers. Notice that these four points form three planes that intersect each other in three lines. One line may be labeled the X axis; another, the Y axis; and the other one, the Z axis (diagram to be given later).

A frame of reference attached to Earth whose origin is located at the center of the Earth is a rotating frame of reference. The accelerometer at the origin shows zero acceleration.

An interesting event occurs in the frame of reference and the physicist wants to record where and when it occurs. The "where" and "when" can be given by four numbers. One number is, of course, the time of the event. (The physicist uses UTC, sets his clocks to be zero at the start of the experiment, or uses a different initial time; that is a matter of individual choice.) Another number is the perpendicular distance to the XY plane (called the "z" coordinate); the third number is the perpendicular distance to the XZ plane ("y") ; and the last one YZ ("x"). Hence, (x, y, z, t) = (2 meters, 1 meter, -5 meters, 3 seconds) may mean that the event occurred 3 seconds since the start of the experiment, 2 meters in the positive direction from the YZ plane ("to the North"), 1 meter in the positive direction from the XZ plane ("to the West"), and 5 meters in the negative direction from the XY plane ("below").

If, on the other hand, a space station is rotating but is in free fall, then a frame of reference attached to the station is a rotating frame of reference. An accelerometer at the origin may or may not show acceleration, depending on where the origin is; but other accelerometers will. An object that is moving in a straight line at constant velocity relative to a nearby inertial frame of reference will appear to have a crooked trajectory as seen from the rotating frame of reference.

Particular frames of reference in common use

See also

Last updated: 10-24-2004 05:10:45