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TWILIGHT, formerly known as Crepusculum (a Latin word meaning dusky or obscure), properly the interval during which the atmosphere is illuminated after the setting of the Sun. The analogous phenomenon in the morning, i.e. the interval between the first appearance of light and the rising of the sun, is known as the dawn. These phenomena are due to the light of the Sun after refraction by the atmosphere being reflected to the observer by the clouds, dust, and other adventitious matter present in the atmosphere. Even in the early infancy of astronomy, the duration of twilight was associated with the position of the Sun below the horizon, and measurements were made to determine the maximum vertical depression of the Sun which admitted the phenomena. This was found by Alhazen, Tycho Brahe and others, to be about 18, and although other observers obtained somewhat different values, yet this value is now generally admitted. The duration of twilight is therefore measured by the time in which the Sun traverses an arc of 1 8 of vertical depression, and primarily depends on the latitude of the observer and the declination of the Sun. It is subject to several minor variations, occasioned by the variable amount of dust, clouds, etc. suspended in the air; and also on the temperature, which alters the altitude of the reflecting particles; thus at the same place and on the same day, the morning twilight or dawn is generally shorter than the evening twilight.

The duration and possibility of twilight may be geometrically exhibited as follows: Let O be the position of the observer (fig. l) ; Z, the zenith; P, the pole of the heavens; ADB, the plane of the horizon; EOF, the path of the Sun. Let the circles ADB and FDE intersect in the points D and DI; then these points correspond to the rising and setting of the Sun. Now 'twilight prevails from sunrise or sunset until the Sun is depressed through 18; hence if we draw arcs ZC and ZCi equal to 1 08, and terminating on the circle FDE at C and Ci, then the arcs DC and' Did represent the distance traversed by the Sun during the twilight. Also it may be observed FIG. i.

that CiEC represents the path of the Sun during the night, and DFDi during the day. The arc CD is readily determined by spherical trigonometry. For, join CP by an arc of a great circle; then in the triangle ZPC we know ZP (the colatitude of O) ; PC (the sun's polar distance) and ZC ( = 108 by construction). Hence the angle ZPC, the sun's hour angle, may be found; this gives the time before or after noon when the Sun passes C. The times of sunrise and sunset being known, then the arcs DC and DiQ (and the duration of dawn and twilight) are determined.

So far we have considered the case when the Sun does attain a depression of 18, but it is equally possible for this depression not to be attained. To investigate this, take ZG equal to 108. Now if G lies beyond B and E (the maximum depression of the sun), E being also below B, then the Sun will rise and set, but never descend so low as to occasion true night, and the entire interval between sunrise and sunset will be twilight.

If E be not below B but above it, the Sun will never descend below the horizon, and will neither rise nor set, and we are presented with the phenomenon known as the midnight Sun. Since PE=9O sun's declination, and PG = latitude of observer + 18, then it follows that for there to be no night the latitude of the observer together with the declination of the Sun must lie between 90 and 72.

The maximum declination of the Sun is about 23 30', and hence in latitude 48 30' there will be one day without a true night; in higher latitudes there will be an increasing number of such days; and in lower latitudes none. In England there is no real night from about the 22nd of May till the 22nd of July.

The phenomenon known as the after-glow, or second twilight, has been referred to a second reflection of the solar rays in the atmosphere.

Note - this article incorporates content from Encyclopaedia Britannica, Eleventh Edition, (1910-1911)

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