An object labelled the ivory prism was recovered from the ruins of
Nineveh. First presumed to be describing rules to a game, its use was later deciphered to be a unit converter for calculating the movement of
celestial bodies and
constellations. Babylonian astronomers developed zodiacal signs. They are made up of the division of the sky into three sets of thirty degrees and the constellations that inhabit each sector. The
MUL.APIN contains
catalogues of stars and constellations as well as schemes for predicting
heliacal risings and settings of the planets, and lengths of daylight as measured by a
water clock,
gnomon, shadows, and
intercalations. The Babylonian GU text arranges stars in 'strings' that lie along declination circles and thus measure right-ascensions or time intervals, and also employs the stars of the zenith, which are also separated by given right-ascensional differences.
Planetary theory The Babylonians were the first civilization known to possess a functional theory of the planets. The oldest surviving planetary astronomical text is the Babylonian
Venus tablet of Ammisaduqa, a 7th-century BC copy of a list of observations of the motions of the planet Venus that probably dates as early as the second millennium BC. The
Babylonian astrologers also laid the foundations of what would eventually become
Western astrology. The
Enuma anu enlil, written during the
Neo-Assyrian period in the 7th century BC, comprises a list of
omens and their relationships with various celestial phenomena including the motions of the planets.
Cosmology In contrast to the
world view presented in Mesopotamian and
Assyro-Babylonian literature, particularly
in Mesopotamian and
Babylonian mythology, very little is known about the
cosmology and world view of the ancient Babylonian astrologers and astronomers. This is largely due to the current fragmentary state of Babylonian planetary theory, and also due to Babylonian astronomy and cosmology largely being separate endeavors. Nevertheless, traces of cosmology can be found in Babylonian literature and mythology.
Omens It was a common Mesopotamian belief that
gods could and did indicate future events to mankind through omens; sometimes through animal entrails, but most often they believed omens could be read through
astronomy and
astrology. Since omens via the planets were produced without any human action, they were seen as more powerful. But they believed the events these omens foretold were also avoidable. The relationship Mesopotamians had with omens can be seen in the Omen Compendia, a Babylonian text composed starting from the beginning of the second millennium on-wards. It is the primary source text that tells us that ancient Mesopotamians saw omens as preventable. The text also contains information on
Sumerian rites to avert evil, or “nam-bur-bi”, a term later adopted by the
Akkadians as “namburbu”, meaning roughly, “[the evil] loosening”. The god Ea was the one believed to send the omens. Concerning the severity of omens, eclipses were seen as the most dangerous. The
Enuma Anu Enlil is a series of cuneiform tablets that gives insight on different sky omens Babylonian astronomers observed. Celestial bodies such as the Sun and Moon were given significant power as omens. Reports from
Nineveh and
Babylon, circa 2500-670 B.C., show lunar omens observed by the Mesopotamians. "When the moon disappears, evil will befall the land. When the moon disappears out of its reckoning, an eclipse will take place".
Astrolabes The astrolabes (not to be mistaken for the later
astronomical measurement device of the same name) are one of the earliest documented
cuneiform tablets that discuss
astronomy and date back to the Old Babylonian Kingdom. They are a list of thirty-six stars connected with the months in a year, generally considered to be written between 1800 and 1100 B.C. No complete texts have been found, but there is a modern compilation by
Theophilus Pinches, assembled from texts housed in the
British Museum that is considered excellent by other historians who specialize in Babylonian astronomy. Two other texts concerning the astrolabes that should be mentioned are the Brussels and Berlin compilations. They offer similar information to the
Pinches anthology, but do contain some differing information from each other. The thirty-six stars that make up the astrolabes are believed to be derived from the astronomical traditions from three Mesopotamian city-states,
Elam,
Akkad, and
Amurru. The stars followed and possibly charted by these city-states are identical stars to the ones in the astrolabes. Each region had a set of twelve stars it followed, which combined equals the thirty-six stars in the astrolabes. The twelve stars of each region also correspond to the months of the year. The two cuneiform texts that provide the information for this claim are the large star list “K 250” and “K 8067”. Both of these tablets were translated and transcribed by Weidner. During the reign of
Hammurabi these three separate traditions were combined. This combining also ushered in a more scientific approach to astronomy as connections to the original three traditions weakened. The increased use of science in astronomy is evidenced by the traditions from these three regions being arranged in accordance to the paths of the stars of
Ea,
Anu, and
Enlil, an astronomical system contained and discussed in the MUL.APIN.
MUL.APIN MUL.APIN is a collection of two cuneiform tablets (Tablet 1 and Tablet 2) that document aspects of Babylonian astronomy such as the movement of
celestial bodies and records of
solstices and
eclipses. Each tablet is also split into smaller sections called Lists. It was comprised in the general time frame of the astrolabes and
Enuma Anu Enlil, evidenced by similar themes, mathematical principles, and occurrences. Tablet 1 houses information that closely parallels information contained in astrolabe B. The similarities between Tablet 1 and astrolabe B show that the authors were inspired by the same source for at least some of the information. There are six lists of stars on this tablet that relate to sixty constellations in charted paths of the three groups of Babylonian star paths, Ea, Anu, and Enlil. There are also additions to the paths of both Anu and Enlil that are not found in astrolabe B.
Relationship of calendar, mathematics and astronomy The exploration of the Sun, Moon, and other celestial bodies affected the development of Mesopotamian culture. The study of the sky led to the development of a calendar and advanced mathematics in these societies. The Babylonians were not the first complex society to develop a calendar globally and nearby in North Africa, the Egyptians developed a calendar of their own. The Egyptian calendar was solar based, while the Babylonian calendar was lunar based. A potential blend between the two that has been noted by some historians is the adoption of a crude leap year by the Babylonians after the Egyptians developed one. The Babylonian leap year shares no similarities with the leap year practiced today. It involved the addition of a thirteenth month as a means to re-calibrate the calendar to better match the growing season. Babylonian priests were the ones responsible for developing new forms of mathematics and did so to better calculate the movements of celestial bodies. One such priest,
Naburimannu, is the first documented Babylonian astronomer. He was a priest for the moon god and is credited with writing lunar and eclipse computation tables as well as other elaborate mathematical calculations. The computation tables are organized in seventeen or eighteen tables that document the orbiting speeds of planets and the Moon. His work was later recounted by astronomers during the Seleucid dynasty.
Aurorae A team of scientists at the
University of Tsukuba studied Assyrian cuneiform tablets, reporting unusual red skies which might be
aurorae incidents, caused by
geomagnetic storms between 680 and 650 BC. ==Neo-Babylonian astronomy==