DIALLING 159 between the eye and the fixed plummet. The meridian plane will be secured by placing two permanent marks on the ground, one under each plummet. This method, by means of the two stars, is only available for the upper transit of Polaris ; for, at the lower transit, the other star -q Ursce Majoris would pass close to or beyond the zenith, and the observation could not be made. Also the stars will not be. visible when the upper transit takes place in the day-time, so that one-half of the year is lost to this method. Neither could it be employed in lower latitudes than 40 N., for there the star would be below the horizon at its lower transit ; we may even say not lower than 45 N., for the star must be at least 5 above the horizon before it becomes distinctly visible. There -are other pairs of stars which could be similarly employed, but none so convenient as these two, on account of Polaris with its very slow motion being one of the pair. To place the Style in its True Position without previous determination of the Meridian Plane. The various methods given above for finding the meridian plans have for ultimate object the determination of the plane, not on its own account, but as an element for fixing the instant of noon, whereby the style may be properly placed. We shall dispense, therefore, with all this preliminary work if we determine noon by astronomical observation. For this we shall want a good watch, or pocket chronometer, and a sextant or other instrument for taking altitudes. The local time at any moment may be determined in a variety of ways by observation of the celestial bodies. The simplest and most practically useful methods will be found described and investigated in any good educational work on astronomy. For our present purpose a single altitude of the sun taken in the forenoon will be most suitable. At some time in the morning, when the sun is high enough to be free from the mists and uncertain refractions of the horizon but to insure accuracy, while the rate of increase of the altitude is still tolerably rapid, and, therefore, not later than 10 o clock take an altitude of the sun, an assistant, at the same moment, marking the time shown by the watch. The altitude so observed being properly corrected for refraction, parallax, <fec., will, together with the latitude of the place, and the sun s declination, taken from the Nautical Almanac, enable us to calculate the time. This will be the eolar or apparent time, that is, the very time we require ; and we must carefully abstain from applying the equation of time. Comparing the time so found with the time shown by the watch, we see at once by how much the watch is fast or slow of solar time ; we know, therefore, exactly what time the watch must mark when solar noon arrives, and waiting for that instant we can fix the style in its proper position as explained before. We can dispense with the sextant and with all calcula tion and observation if, by means of the pocket chronometer, we bring the time from some observatory where the work is done ; and, allowing for the change of longitude, and also for the equation of time, if the time we have brought is clock time, we shall have the exact instant of solar noon as in the previous case. In remote country districts a dial will always be of use to check and even to correct the village clock ; and the description and directions here given will, we think, enable any ingenious artisan to construct one. In former times the fancy of dialists seems to have run riot in devising elaborate surfaces on which the dial was to be traced. Sometimes the shadow was received on a cone, sometimes on a cylinder, or on a sphere, or on a combination of these. A universal dial was constructed of a figure in the shape of a cross ; another universal dial showed the hours by a globe and by several gnomons. These universal dials required adjusting before use, and for this a mariner s compass and a spirit-level were necessary. But it would be tedious and useless to enumerate the various forms designed, and, as a rule, the more complex the less accurate. Another class of useless dials consisted of those with, variable centres. They were drawn on fixed horizontal planes, and each day the style had to be shifted to a new position. Instead of hour-lines they had hour-points ; and the style, instead of being parallel to the axis of the earth, might make any chosen angle with the horizon. There was no practical advantage in their use, but rather the reverse ; and they can only be considered as furnishing material for new mathematical problems. Portable Dials. The dials so far described have been fixed dials, for even the fanciful ones to which reference was just now made were to be fixed before using. There were, however, other dials, made generally of a small size, so as to be carried in the pocket ; and these, so long as the sun shone, roughly answered the purpose of a watch. The description of the portable dial has generally been mixed up with that of the fixed dial, as if it had been merely a special case, and the same principle had been the basis of both ; whereas there are essential points of difference between them, besides those which are at once apparent. In the fixed dial the result depends on the uniform angular motion of the sun round the fixed style ; and a small error in the assumed position of the sun, whether due to the imperfection of the instrument, or to some small neglected correction, has only a trifling effect on the time. This is owing to the angular displacement of the sun being so rapid a quarter of a degree every minute that for the ordinary affairs of life greater accuracy is not required, as a displacement of a quarter of a degree, or at any rate of one degree, can be readily seen by nearly every person. But with a portable dial this is no longer the case. The uniform angular motion is not now available, because we have no determined fixed plane to which we may refer it. In the new position, to which the observer has gone, the zenith is the only point of the heavens he can at once practically find ; and the basis for the determination of the time is the constantly but very irregularly varying zenith distance of the sun. At sea the observation of the altitude of a celestial body is the only method available for finding local time ; but the perfection which has been attained in the construction of the sextant (chiefly by the introduction of telescopes) enables the sailor to reckon on an accuracy of seconds instead of minutes. Certain precautions have, however, to be taken. The observations must not be made within a couple of hours of noon, on account of the slow rate of change at that time, nor too near the horizon, on account of the uncertain refractions there ; and the same restrictions must be observed in using a portable dial. To compare roughly the value (as to accuracy) of the fixed and the portable dials, let us take a mean position in Great Britain, say 54 lat., and a mean declination when the sun is in the equator. It will rise at 6 o clock, and at noon have an altitude of 36, that is, the portable dial will indicate an average change of one-tenth of a degree in each minute, or two and half times slower than the fixed dial. The vertical motion of the sun increases, however, nearer the horizon, but even there it will be only one-eighth of a degree each minute, or half the rate of the fixed dial, which goes on at nearly the same speed throughout the day. Portable dials are also much more restricted in the range
of latitude for which they are available, and they should