considered negatively, which must be performed on the unit of mass against the centrifugal force in order to transport it from the position of the clock on the rotating disc to the centre of the disc, then we have
.
From this it follows that
.
In the first place, we see from this expression that two clocks of identical construction will go at different rates when situated at different distances from the centre of the disc. This result is also valid from the standpoint of an observer who is rotating with the disc.
Now, as judged from the disc, the latter is in a gravitational field of potential , hence the result we have obtained will hold quite generally for gravitational fields. Furthermore, we can regard an atom which is emitting spectral lines as a clock, so that the following statement will hold:
An atom absorbs or emits light of a frequency which is dependent on the potential of the gravitational field in which it is situated.
The frequency of an atom situated on the surface of a heavenly body will be somewhat less than the frequency of an atom of the same
