THE AMERICAN ALMANAC, FOR THE BISSEXTILE YEAR 1848, Being the latter part of the 72d, and the beginning of the 73d year of the Independence of the United States of America; the 6561st year of the Julian Period; the latter part of the 5608th, and the beginning of the 5609th the 2595th year since the era of Nabonassar, which has been the latter part of the 1264th, and the beginning of the 1265th 6 Conjunction, or having the same Longitude or Right Ascension. 8 Opposition, or differing 180° in 66 66 The ascending, U the descending node. 66 66 " The sign is prefixed to the latitude, or declination, of the Sun, or other when south; but the former pre heavenly body, when north, and the sign fixed to the hourly motion of the Moon in latitude, indicates that she is approaching, and the latter that she is receding from, the north pole of the ecliptic. The letters M. A., m. a., denote Morning and Afternoon. "north of Equator, (Spring and Summer). 186 11 2 0 "south of 66 (Winter and Autumn). Length of the tropical year, commencing at 178 18 44 16 the winter solstice, 1847, and terminating at 365 5 46 16 the winter solstice, 1848, Mean, or average length of the tropical year, 365 5 48 48 [The anniversaries marked with an asterisk (*) are to be strictly observed.] 16th, *Second Feast, or Morrow of the Passover, Apr. 19, 66 Year. Names of the Months. 3609 Tisri, 15th, *Feast of the Huts or Tabernacles, .... 22d, *End of the Hut or Congregation Feast,.. Marchesvan begins,· Chisleu begins,⚫ .... 25th, Consecration of the Temple,. Thebet begins,· ... The Jewish year generally contains 354 days, or 12 lunations of the Moon, but in a cycle of 19 years, an intercalary month (Veader) is 7 times introduced, for the purpose of rendering the average duration of the year nearly or quite correct. The Mahometan Era dates from the flight of Mahomet to Medina, July 16th, A. D. 622. The Mahometan year is purely lunar; it consists of 12 synodical periods of the Moon, or of 354 days, 19 times in a cycle of 30 years, and 11 times of 355 days. The average length of this year is therefore 35411 days, which differs only thirty-three seconds from the truth; a degree of exactness that only could have been attained by a long series of observations. But as no allowance is made for the excess of 11 days in the length of a tropical year over the time of 12 revolutions of the Moon, it is obvious that in about 33 years, the above months will correspond to every season and every part of the Gregorian year. |