then the equivalence of equations (2) and (2a) is expressed in the form
It therefore follows that
must be a constant. If we put
= 1, (2b) and (3a) furnish the conditions
in which
then the equivalence of equations (2) and (2a) is expressed in the form
It therefore follows that
must be a constant. If we put
= 1, (2b) and (3a) furnish the conditions
in which