Copyright © 1998 Richard A. Paselk
Baker - Table
of Contents
CHAPTER III
Adjustment of the spectroscope - Measurement of the refracting angle
and the index of refraction of a prism - Measurement of the width of a
grating - Refractive indices of liquids - Change of refractive index with
change of solvent - Molecular refractive power - Additive nature of atomic
refractive powers of elements - Resolving power of prisms and gratings
- Absorption by prisms - Anomalous dispersion
CERTAIN conditions
have to be observed in setting tip a spectroscope. The rays of light which
emerge from the collimator and fall on the prism face must be parallel;
the slit must be parallel to the refracting edge of the prism - in the
ordinary way they must both be vertical; where a grating or grating replica
is employed as the dispersing medium, the rulings must be perfectly parallel
to the slit; the optic axes of collimator and telescope must lie in the
same plane.
The slit is fixed at the focus of the collimating lens
in some instruments, but as a general rule its position is capable of adjustment.
In order to adjust the collimator, therefore, the following procedure is
carried out: The eye-piece of the telescope is adjusted so that the cross-wires
are seen in distinct focus. The telescope is then directed towards some
distant tree, church spire, or chimney (the prism being removed), and the
eye-piece racked out until it is in distinct focus. The distant object
may be looked upon as being infinitely distant, so that parallel rays are
incident upon the objective. The telescope is then turned so that it is
in a straight line with the collimator, and the slit, which is now illuminated
with
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some convenient light source, should be seen exactly
in the centre of the eye-piece, crossing the intersection of the cross-wires
or spider-webs. The draw-tube of the collimator is then drawn (or racked)
out until the image of the slit is absolutely distinct. The slit should
be opened to different widths and examined at each, as this makes it easier
to be quite sure when the image is perfectly distinct. Many collimator
tubes are provided with a collar and screw, which enable the draw-tube
to be fastened quite tightly when once the requisite position has been
found. The slit must, of course, be vertical, and its centre must appear
at the intersection of the cross-wires. Compensating screws are usually
provided, by means of which the telescope and collimator can be corrected
if their optic axes do not lie along one straight line.
The prism is next placed on the prism table, which frequently
has three levelling-screws, by means of which the refracting edge of the
prism and the slit can be got into the same plane and perfectly parallel.
A certain line, such as the yellow sodium or the green mercury line, should
be brought into observation by illuminating the slit with the necessary
light and turning the prism table until the ray chosen is at the angle
of minimum deviation. The telescope is then very slightly turned in one
direction, so that the bright line appears slightly to one side of the
centre of the field; the prism is now rotated until the bright line again
comes into the centre of the field, and then rotated in the opposite direction
until it is again seen there, these two positions being possible, as can
readily be seen from an experimental observation. The line should appear
equally sharp with the prism in both positions if the rays from the collimator
are perfectly parallel; it should also appear absolutely vertical if the
refracting edge of the prism has been properly adjusted.
MEASUREMENT OF THE REFRACTING ANGLE OF A PRISM. -The prism is placed on the prism table, and the refracting
edge is turned towards the collimator. The telescope is now turned in one
direction until the image of the slit is seen by reflection from one face
of the prism, the slit being centered on the intersection of the cross-wires
- i.e., being seen in the exact centre of the eye-piece. The angular
deviation
of the telescope is then read. The telescope
is now turned in the other direction until the slit is again seen owing
to reflection from the other prism face; the new angular deviation
is read. The difference betweenandgives the required angle. White light may be used in this measurement,
which simply depends on reflection, though monochromatic light will give
greater precision.