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How Did Astronomy Fundamentally Change Human History

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We often think of astronomy as a type of academic discipline or hobby subject taken up by those interested in the night sky. While this is true, astronomy has fundamentally shaped human history as it allowed the understanding of the seasons and seaborne navigation. Additionally, to make a wider understanding of the movement of stars and celestial objects in general, a great understanding of mathematics was needed that allowed other developments, where even ideas of mapping and coordinate systems developed. The importance of astronomy to the past is attested because some ancient languages only went extinct after astronomical observations ceased. On the other hand, astronomy has the potential to shape our future in guiding future space exploration and possibly new worlds to explore for the modern world.
===Ancient Astronomy===
The night sky's basic observation across most of the latitudes people heavily occupy indicates that stars, the sun, and the night sky change during the year. This is an important pattern that many ancient societies understood, were cultures in the New and Old Worlds developed astronomical observations. This includes the ancient Maya, Aztecs, Egyptians, Babylonians, Greeks, Chinese, and others (Figure 1). Astronomy helped to distinguish seasonal changes that are important for agriculturally-based societies. Knowing when the autumn and planting season in northern latitudes, for example, indicate when it is safe to harvest and sow crops.<ref>For more examples of ancient societies with knowledge of various astronomical principles, see: Ruggles, C. L. N. (2005). <i>Ancient astronomy: an encyclopedia of cosmologies and myth.</i> Santa Barbara, Calif: ABC-CLIO.</ref>
However, there are many secondary benefits of this type of observation. First, knowing where the stars and sun will make it evident there is a recurrent pattern. This pattern often has observable mathematical properties that help ancient societies to develop ways to predict when astronomical events will occur. We see this in ancient Babylonia, where astronomical observations developed mathematical formulations to understand where planets and stars would align and when comets may reappear.<ref>For more on the development of mathematics and astronomy, see: Neugebauer, O. (1975). <i>A history of ancient mathematical astronomy: in three parts.</i> Berlin: Springer.</ref>
Astronomy helped form both lunar and solar-based calendars, where ancient societies even understood that the solar year was slightly more than 365 days. Navigation of ship-borne trade before 1000 BCE was mostly confined to areas along the coast or regions that can more easily observe land. However, astronomy made it possible to navigate in open waters and during the night. Whereas early navigation depended on land features, understanding the position of stars allowed the Phoenicians and Greeks to colonize wide areas of the Mediterranean Sea in the 1st millennium BCE, spreading their cultures in wide areas. Babylon and wider Babylonia were one of the key regions for many ancient developments. This included the development of the zodiac signs, still utilized today, and even a coordinate system to identify the positioning of stars and constellations. A system for predicting eclipses was even developed, invented in Babylon, which is still utilized, called the Solaris system. The coordinate system developed was the eventual 60-based system we use to describe global navigation today.<ref>For more on calendars and observations of eclipses, see: Lawson, R. M. (2004). <i>Science in the ancient world: an encyclopedia.</i> Santa Barbara, Calif: ABC-CLIO, pg. 32.</ref>
==Medieval and Renaissance Developments in Astronomy==

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