Doing research on ancient Greek astronomy is particularly interesting to me because of its fundamental contribution to the evolution of modern scientific theory. Without the use of modern instruments, the Greeks, especially individuals like Ptolemy, Aristotle, and Hipparchus, made important advancements in our understanding of celestial phenomena. Their theories, which include the idea of epicycles and Ptolemy's geocentric model of the universe, show a sophisticated attempt to explain celestial mechanics and planetary motions. Greek astronomy also reflected a comprehensive understanding of the cosmos by being entwined with mathematics and philosophy. Examining this era reveals ongoing discussions about the nature of scientific inquiry, the …show more content…
Aristarchus of Samos stands out among them for putting the Sun at the center of a heliocentric model of the solar system, which was revolutionary at the time and went against the dominant geocentric viewpoints (Fraser, 1996). Even though the heliocentric model was rejected in classical Greece, Aristarchus showed that the country's astronomers were open to investigating other cosmological theories and refuting conventional wisdom. With his enormous work Almagest, Claudius Ptolemy made lasting contributions to Greek astronomy. Almagest significantly improved the geocentric model by synthesizing centuries of astronomical observations and mathematical computations, as described by the Library of Congress (n.d.). To explain the intricate movements of the planets and stars in relation to Earth, Ptolemy introduced advanced ideas like epicycles and deferents. His methodical approach and exacting mathematical calculations became synonymous with Greek astronomy, impacting astronomers of later generations. Ptolemy's contributions demonstrate the precise and methodical nature of Greek astronomy, even though Copernicus' heliocentric model ultimately superseded Ptolemy's geocentric model, …show more content…
The long-lasting legacy of Greek astronomical traditions and their significant influence on the development of scientific ideas are highlighted by Ptolemy's influence. Beyond idle speculation, Greek astronomy had profound practical applications that influenced both ancient society and the course of scientific inquiry. Greek astronomers, exemplified by figures like Hipparchus, made significant advancements in observational methods during antiquity (Fraser, 1996). Hipparchus, renowned for his meticulous approach, created detailed star catalogs and devised methods to determine celestial positions with unprecedented accuracy. These catalogs served practical purposes in ancient society, proving indispensable for timekeeping, navigation across seas, and predicting crucial astronomical events such as eclipses, which held significant cultural and religious significance. The practical utility of Greek astronomical knowledge extends far beyond its immediate historical context. Steele (2011) underscores how Greek conceptions of the universe permeated intellectual
After the Civil War, African Americans encountered great discrimination and suffering. During this era, two influential leaders emerged from different philosophical camps. Brooker T. Washignton of Virginia and William Edward Burghardt Dubois of Massachusetts proposed, different means to improve African Americans’ conditions. These men had a common goal to enrich the black community. However, the methods they advocated to reach these goals significantly differed.
In his book, Repcheck recounts how a Catholic Church cleric invented a highly complicated theory of the heavens’ architecture. Copernicus made a breakthrough by solving a significant astronomical problem. Everybody except the astronomers had earlier accepted Aristotle’s concept that heavenly objects revolved around the earth in perfectly circular orbits. The astronomers were opposed to this notion since their calculations could not work according to it. Repcheck introduces Ptolemy who described a cosmos in which the earth positioned itself somewhat off-center and other heavenly bodies revolved in one circular orbit inside a second ideal circle at changeable speeds. Even though Ptolemy’s model was rather complicated, astronomers found it to be reasonable in their calculations. Astronomers were still using this new concept even 1500 years later. In this regard, the author starts to bring Copernicus into the picture.
Ptolemy of Alexandria, the Influential Astronomer Ptolemy of Alexandria was the most influential astronomer of the ancient world. The books and theories Ptolemy developed served as a major basis for future astronomers. It was during the Renaissance period that his work became thoroughly studied and revised. Ptolemy collected all ancient knowledge of astronomy and geography including it in his book Almagest around 140 A.D. It follows, he then wrote a four volume astrological study known as the Tretrabiblos.
The surest foundation for the origin of science in its practical form is to be found in the ìco–rdination and standardization of the knowledge of common sense and of industry.î[1] One of the first occurrences of this co–rdination can be traced back to 2500 BCE in the form of edicts from the ancient Babylonian rulers, who issued royal standards of length, weight and capacity. Non-Semitic Sumerians also laid down the elements of mathematics and geometry at that time, making use of fractions, decimals, circles and radial angles. But knowledge as we know it today was tightly woven with magical notions, and as both spread westward they instilled in European thought a reverence for ìspecial numbers, their connections to the gods and the application of geometrical diagrams to the prediction of the future.î[2] As well, the ancient Babylonians were fascinated by the heavens. They were the first to make a map of the stars and associate them with animals like the Ram, Crab and Scorpion, names that we still use to this day. They also realized the periodicity and reliability of astronomical movement and phenomena, and were soon able to predict many of them. Tablets have been found dating to the sixth century BCE that predicted the relative positions of the sun and moon, as well as forecasted the occurrences of eclipses.[3] Out of all this knowledge the Babylonians built up a fantastic system of astrology, through which the starsówhich were thought to fix and foretell the course of human affairsówould give up their secrets.
radically altered physical representations of the heavens. By integrating stereography with the Clepsydra and the celestial sphere, humanity was capable of creating more practical and accurate devices for measuring time-the anaphoric clock and the astrolabe. Although Ptolemy was familiar with both the anaphoric clock and the astrolabe, I believe that the development of the anaphoric clock preceded the development of the astrolabe. The earliest example, in western culture, of a celestial sphere is attributed to the presocratic philosopher Thales. Unfortunately, little is known about Thales' sphere beyond Cicero's description in the De re publica.
Clarke, Leonard W.‘Greek Astronomy and Its Debt to the Babylonians' The British Journal for the History of Science, Vol. 1, No. (Cambridge University Press. 1962)
Until Copernicus, the teachings of the Greek astronomer Ptolemy were considered the indisputable truth. His idea was that the Earth was the stationary center of the universe. The sun, moon, planets, and th...
Ptolemy also based on ancient astronomy significantly which the Earth sphericty recognized to him. The sphericty of the earth contain Saint Bede the Venerable in his account of the time, and wrote about 723 AD and this belief was reflected by the Christian writers.
Greek mathematics began during the 6th century B.C.E. However, we do not know much about why people did mathematics during that time. There are no records of mathematicians’ thoughts about their work, their goals, or their methods (Hodgkin, 40). Regardless of the motivation for pursuing mathematical astronomy, we see some impressive mathematical books written by Hippocrates, Plato, Eudoxus, Euclid, Archimedes, Apollonius, Hipparchus, Heron and Ptolemy. I will argue that Ptolemy was the most integral part of the history of Greek astronomy.
Ptolemy, was a Roman astronomer who lived about 100 years after the time of jesus created a diagram of how he thought the universe worked, geocentric. On the contrary, Nicolaus Copernicus, who lived from 1473 to 1543 relied mostly on mathematics, referring to the universe as being heliocentric. Copernicus's theory of the universe was upsetting to the church on account of his ideas being based more on mathematics rather than the church’ beliefs. Copernicus made the perspective of man's dominance in a powerful world show to be no longer
Aristarchus lived from about the year 310 B.C. to about 230 B.C. Aristarchus was the first Greek philosopher and mathematician to make sense of the solar system. Others before him thought that the Earth is a sphere and that it moves, but he was the first to understand the heliocentric theory, which states that the sun is in the middle. In 288 or 287 B.C. he followed Theophrastus as the head of the Peripatetic School established by Aristotle.
Topic: Compare and contrast the contributions in science and math of ancient Greece, India, and China. Whose discoveries had more influence on us today?
Since the first Egyptian farmers discovered the annual reappearance of Sirius just before dawn a few days before the yearly rising of the Nile, ancient civilizations around the Mediterranean have sought to explain the movements of the heavens as a sort of calendar to help guide them conduct earthly activities. Counting phases of the moon or observing the annual variations of day length could, after many years' collection of observations, serve as vital indicators for planting and harvesting times, safe or stormy season for sailing, or time to bring the flocks from winter to summer pastures. With our millennia of such observation behind us, we sometimes forget that seeing and recording anything less obvious than the rough position of sun or nightly change of moon phase requires inventing both accurate observation tools (a stone circle, a gnomon used to indicate the sun's shadow, a means to measure the position of stars in the sky) and a system of recording that could be understood by others. The ancient Greeks struggled with these problems too, using both native technology and inquiry, and drawing upon the large body of observations and theories gradually gleaned from their older neighbors across the sea, Egypt and Babylonia. Gradually moving from a system of gods and divine powers ordering the world to a system of elements, mathematics, and physical laws, the Greeks slowly adapted old ideas to fit into a less supernatural, hyper-rational universe.
Nicholaus Copernicus is one of the most well known astronomers of all time. He is even labeled as the founder of modern astronomy for the proposition of his heliocentric theory (“Nicolaus Copernicus”, Scientists: Their Lives and Works). The heliocentric theory was revolutionary for Copernicus’ time. Copernicus lived during the Renaissance. “The era of the Renaissance (roughly 1400-1600) is usually known for the “rebirth” of an appreciation of ancient Greek and Roman art forms, along with other aspects of classical teachings that tended to diminish the virtually exclusive concentration on religious teachings during the preceding centuries of the “Dark Ages.” New thinking in science was also evident in this time…” This time period became known as the scientific revolution (“Copernicus: On The Revolutions Of Heavenly Bodies). In other words, old ideas were revived in the arts and other means and less emphasis was placed o...
...roups that have been important to astronomy are the Akkadians, Egyptians, Chinese, Polynesians, and the Greeks. They used astronomy for navigation at sea, creating accurate calendars, making new inventions, and many more things! Some modern jobs in astronomy include Educational, Private industries, National Observatories and Laboratories. Also, some technical advances because of astronomy include many telescopes, tracking programs used by FedEx, and IRAF which is used to analyze computer systems. Even though astronomy is an incredibly interesting field, there are minimum job opportunities. Some of the jobs are included in the following fields: education, national observatories and laboratories, or in private industries. Astronomy has been the key to unlocking many new inventions and by connecting things from the past, to the present, and going into the future.