THE OUTSIDE OF A STAR 325
On the other hand, the intensity of the emergent radiation corresponds to
an effective temperature given by (227-3)
acT* = 2H (1 + | cos d) (228-2).
The ratio T m /T e is 1-08 at the centre (cos 0=1) and falls to unity at
the limb. We might perhaps expect the quality of the light (distribution
in wave-length) to correspond to the mean temperature of its origin. In
that case T m jT e will be the ratio of the effective temperature judged by
quality of the radiation to the effective temperature judged by quantity.
This, however, is a lazy way of handling the problem and it is not sur
prising that the result fails to accord with observation. The proper course
is to find the spectral distribution of the emergent radiation by treating
each wave-length separately using its own proper value of j and Jc.
The chief published investigations of the theory of the spectral dis
tribution of the emergent radiation are by E. A. Milne* and B. Lindbladf.
Reference may be made to these to supplement the present account in
matters of detail.
The observed spectral energy-curve of the sun is shown by the broken
line in Fig. 5 (p. 328). It is derived from Abbot’s measurements as combined
by Lindblad. The ordinate is proportional to the amount of energy emitted
within a fixed range of wave-length dX. (In our previous theoretical work
we have generally considered a fixed range of frequency dv.) When plotted
in this way the maximum ordinate of the black-body curve is given by
( 102 ' 3 ) A max . T = 0-288 cm. deg (228-3).
The dotted curve (constant absorption coefficient) in the figure, although
not precisely the black-body curve, is barely distinguishable from it on
the scale of the diagram, so that the difference of the two curves is
practically the deviation of the sun’s radiation from a black-body.
Three causes may contribute to this deviation—
(а) What we see is a superposition of radiation from layers at different
temperatures, and the spread of temperature distorts the black-body
curve.
(б) Since the absorption coefficient is different for different wave
lengths we see farther into the sun in some wave-lengths than in others
and so receive radiation from a hotter stratum.
(c) The conditions in the radiating layers are beginning to deviate from
thermodynamical equilibrium and deviations from Planck’s Law may
arise at the source of the radiation.
* Monthly Notices, 81, p. 375 (1921); Phil. Trans. 223 a, p. 201 (1922).
f Uppsala Universitets Ârsskrift, 1920, No. 1 ; Nova Acta Reg. Soc. Sci. Upsaliensis,
Ser. 4, Vol. 6, No. 1 (1923).
