SU71571A1 - The way to determine the azimuth of earth objects - Google Patents

Description

The subject of the invention is a method for determining the azimuth of earthly objects, which is, in order to eliminate the observation of time and the clock correction, measure the horizontal angle between two directions on the same star at its two positions and x as well The luminaries in the same positions, and in relation to the horizontal angle and the difference in altitude, with two successive observations of the luminaries, calculate the required azimuth.

To determine the azimuth, one can take any of the stars visible in our census, as long as it has sufficient brightness for easy observation and its coordinates would be known in the astronomical yearbook.

Determination of sidereal time is not necessary, and consequently, there is no need to determine the correction of hours. The observation process is that at a given time interval (20-30 min.) The horizontal angle between two directions to the same star and its heights in the same directions is measured by the theodolite.

VZ, in relation to the M values of the horizontal angle and the difference in height, thereby completely exclude

from observations time. Then the azimuth of the direction, lying, in the middle between two directions to the star in two marked positions, can be represented; as a function of this ratio, since each definite direction, the average between two directions per star, corresponds only to one definite value M, and vice versa.

If in advance, for a number of moments, we calculate the azimuths of the star and the corresponding ratio, then, having observed the same star in two arbitrary positions and calculating the ratio M, we can find the azimuth of the average position as an argument.

The answer given to this direction on the limb of the instrument is determined as the average of the counts per luminary. Hence, the azimuth of the direction of the earth object is determined. In compiling the tables, it is necessary to take into account changes in the coordinates of the star during the year to increase the accuracy.

The most convenient star positions for observing are are; those with which it is located near the elongation, i.e., its extreme eastern or western distance, or near the moment of the lower culmology

nation- The moment of the upper climax of the father, as uncomfortable according to the technical conditions of observation.

The working process but the proposed subassembly is performed as follows.

After carefully checking the instrument, special attention should be paid to minimizing the collimation error and the error from the horizontale axis of rotation of the pipe, sight to the earth object with reference to the limb and then direct the ontic axis of the pipe to the star in its two positions in the interval of 20 30 min. with readings but both circles. The observation process ends with a sight on the earth.

the object is read by limb, after which the required azimuth is calculated.

The subject of the invention is a method for determining the azimuth of earthly objects by measuring the horizontal angles and heights of the luminaries, characterized in that, in order to eliminate the observation of time and the clock correction, the horizontal angle between the two directions to the same luminary is measured at its two positions, and also, the heights of the luminaries at the same positions, and with respect to the horizontal angle and the height difference with two consecutive observations of the luminaries, are calculated. azimuth.