He then goes on to give the particulars of his sweeps over the regions east and west of the sun, which were without result till, at last—
This body he holds to be Leverrier's intra-Mercurial planet. Its place is given as follows: 8h. 26m. 24s.; declination 18° 16'. It will be seen that this position differs from that given above, the declination being here 18° 16', instead of 18° 0'.
On August 23d the observer added a new correction: "In consequence of having employed an inexact value for the correction of the chronometer, an error has crept into the results. The true position is this: right ascension, 8h. 27m. 35s.; declination, 18° 16'."
Here we have a fresh difference in the first figure. The result is, first, that the orbit calculated immediately upon receipt of the telegram was made too hastily and on an insufficient basis.
According to the American observer, the definitive differences between the planet and the sun were: in right ascension, 8m. 21s.; in declination, 0° 22'. But in this same letter of August 23d he announces that he observed another star, also of the fourth magnitude, which presented the following differences from the sun: in right ascension, 27m. 18s.; in declination. 0° 35'. Whence results for this second star the position: right ascension, 8h. 8m. 38s.; declination, 18° 3'.
A fourth datum sent to the London Royal Astronomical Society again corrects these positions as follows:
| 8h. | 27m. | 24s. | + 18° 16' |
| 8h. | 9m. | 24s. | + 18° 3' |
We will remind our readers that the right ascension of a star is its distance east or west from the first point of Aries, measured along the celestial equator, and its declination is its distance above or below that equator. They are the longitudes and latitudes of the heavens, corresponding to those of earth, and they serve to determine the positions of stars as earth longitudes and latitudes serve to fix in geography the exact positions of cities.
