Summary

This presentation covers the history of astronomy, from the earliest observations of celestial bodies to the development of modern astronomical theories. It examines different cultures' contributions and highlights important figures. Topics include early astronomical observations, models of the universe, and the evolution of astronomical knowledge.

Full Transcript

The History of Astronomy The Roots of Astronomy Already in the stone and bronze ages, human cultures realized the cyclic nature of motions in the sky. Monuments dating back to ~ 3000 B.C. show alignments with astronomical significance. Those monuments were probably used as cale...

The History of Astronomy The Roots of Astronomy Already in the stone and bronze ages, human cultures realized the cyclic nature of motions in the sky. Monuments dating back to ~ 3000 B.C. show alignments with astronomical significance. Those monuments were probably used as calendars or even to predict eclipses. Stonehenge Stonehenge Constructed 3000 – 1800 B.C. in Great Britain Alignments with locations of sunset, sunrise, moonset and moonrise at summer and winter solstices Probably used as calendar. Other Examples around the World Big Horn Medicine Wheel (Wyoming) Other Examples around the World Caracol (Mexico); Maya culture, approx. A.D. 1000 The knowledge of the Ancients Passage of astronomical knowledge Ancient Babylon Ancient Egypt Ancient Ancient Roman Empire Greece Mesopotamia/Babylon Modern political boundaries Ancient Babylon Mesopotamia/Babylon Ancient Egypt Nile River Valley Great Pyramid of Kufu Ancient Greece Ancient Greece Ancient Rome Ancient Rome The Romans most important contribution to the field of astronomy is the enforcement of a systematic calendar that would account for fact that the year is about ¼ of a day more 365 days. The astronomers of Julius Caesar convinced him to create the Julian Calendar which adds one day to the calendar every 4 years to account for the time we had skipped. This is known as a “leap year”. Greek Astronomy Greek Astronomy About 624 BC to 547 BC One of the earliest Greek philosophers. His areas of interest included geometry and astronomy. There are no books or writings that have survived from Thales. Greek Astronomy About 569 BC to 475 BC One of the greatest mathematicians of all time. Founded secret society based on his mathematical discoveries and their religious implications. Since the society was extremely secretive, very little is known about his life or personal works. Greek Astronomy 427 BC to 347 BC Well known for political and social philosophy but he also made contributions to astronomy. He was most noted for his belief in the perfect and unchanging nature of the heavens. Plato was the head of the School of Athens & was Aristotle’s teacher. Greek Astronomy 384 BC to 322 BC Founded his own school called the Lyceum in Athens Made contributions to all areas of philosophy but math was his weakness He did not believe that empirical evidence was necessary to prove ideas. Greek Astronomy Aristotle is one the first to attempt to create a scientific model of the universe. This model has now become known as the “Geocentric Model” which places the “imperfect” Earth at the center and all of the “perfect” celestial objects go around us in perfect circular motion Greek Astronomy About 325 BC to 265 BC Great mathematician but so little is known about him that people question whether he was an actual person or a group of mathematicians. Greek Astronomy The book “Elements” is possible the most famous and long lasting math text books in history. Greek Astronomy About 310 BC to 230 BC We have no writings that have survived but Aristarchus is referred to in the writings of other philosophers Greek Astronomy Most noted for proposing the idea of a heliocentric universe with the earth as one of the planets moving around the Sun. Aristarchus is the first to attempt to measure the relative distance between the Earth-Moon and the Earth-Sun without the aid of trigonometry. Actual angle = 89° 50” not 87° Greek Astronomy 276 BC to 194 BC Librarian at the Great Library of Alexandria in Egypt. Developed a calendar with a leap year. Measured the circumference of the Earth in 325 BC !! Achieved an accuracy of about 90% of the actual number. Greek Astronomy 190 BC to 120 BC Hipparchus is consider the first great astronomer and scientist Hipparchus is one of the first of the ancient philosophers to realize that ideas must be proven with empirical evidence. He realized that more data meant more certainty in the idea or model Greek Astronomy Created highly accurate star atlases in an attempt to measure the length of the year more accurately. He measured the length of the year to within 6.5 minutes of the actual time. He discovered precession by examining ancient star position data (mostly Mesopotamian) and comparing them to his own measurements. Greek Astronomy Based on measurements during an eclipse, he is able to place a range on the distance to the moon. He estimated it to be between 59 and 67 Earth diameters. The actual number is 60. He marks the first truly scientific astronomical mind and his influence is still felt today. Greek Astronomy About 85 AD to 165 AD Ptolemy is the most influential astronomer in his day and his models of the universe will prevail for the next 1400 years He is a great admirer of Hipparchus and his rigorous method of verifying ideas with empirical data. Ptolemy is also accused of stealing ideas without crediting his source. Greek Astronomy Ptolemy is a great proponent of the geocentric model. He saw that there were problems with Aristotle’s simplistic idea of a geocentric model. Ptolemy employed an old idea of epicycles to explain help explain the discrepancies in the evidence for geocentrism. Although he was able to make more accurate predictions than previous astronomers, his model still failed to be completely accurate. Ancient Greece Geocentric or Heliocentric? Of the early philosophers, only Hipparchus favored the heliocentric model Most philosophers thought that the evidence supported the Geo model more than the Helio model What was the evidence? Let’s Look…. Geocentric Evidence Everything appears to revolve around the Earth each day (diurnal motion). There is no observable parallax of the stars, planets, Moon, or Sun. The motions of the stars and heavens are perfect circles. The heavens were unchanging but the Earth was not. Problems With the Geocentric Model  The planets appear to change brightness, implying a change of distance.  The planets undergo retrograde motion (they move backwards compared to the direction the Sun moves).  The Sun, Moon, and Planets do not move at the same speed all the time.  Mercury and Venus are never seen at opposition (they always appear close to the Sun. Evidence of the Heliocentric Model  The changing brightness of the planets is explained by the Earth getting closer and farther from the planets during our orbit of the Sun.  Our passing planets explain the retrograde motion of the outer planets.  Mercury and Venus are not seen at opposition because they orbit the sun, just as we do. Problems with the Heliocentric Model  The changing speeds of the Sun, Moon, and planets is not explained by simply placing the Sun at the center of the universe.  We do not feel the Earth moving or the atmosphere being pulled away as we fly around the Sun.  If the Earth were spinning, wouldn’t we be thrown off into space?  Why is there no parallax due to our spin or our orbit? So Which is Right? The ancients favored the geocentric model because it seemed impossible to believe that the Earth was moving. During ancients times, the mathematical and scientific tools were not available to answer the question without dispute.

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