HISTORY OF ASTRONOMY
Triangulation of Towers Hall
Example Angle at A: 19°Angle at A: 19° Angle at B: 22°Angle at B: 22° Baseline: 12.6mBaseline: 12.6m Height: 29.4ft = 96 ftHeight: 29.4ft = 96 ft A B
Derivation Angle at A: α=19°Angle at A: α=19° Angle at B: β=22°Angle at B: β=22° Baseline (b): 12.6mBaseline (b): 12.6m Height (H): ???Height (H): ??? Have triangle with known side and 2 angles:Have triangle with known side and 2 angles: H = D tan β H = (D+b) tan α 2 equations, 2 unknowns Solve for H = b tan α/(1-tan α/tan β) A B D
Questions Why is the measurement the better, the longer the baseline is? Estimate your uncertainty: How well can you measure the angles? What other sources of error can you think of? Does your result look reasonable? How do you know? Is it accurate? Which instrumental setup is likely to be the most accurate? Big quadrant, small quadrant, electronic measurement? What could be changed to improve the accuracy?
A Short History of Astronomy Ancient (before 500 BC) –Egyptians, Babylonians, Mayans, Incas, Chinese Classical Antiquity (500 BC-500 AD) –Greeks, Romans: Plato, Aristotle, Ptolemy Middle Ages ( AD) –Arabic astronomers Renaissance ( AD) –Copernicus Baroque ( AD) –Brahe, Kepler, Galilei, Newton
Ancient Astronomy Stonehenge, England Pyramids, Gizeh near Cairo, Egypt
Aristotle (384 – 322 BC) Arguably the first genuine scientist in history Aristotle's views on physical science shaped medieval scholarship Scholasticism His views on motion of the objects was deeply flawed but compelling Thomas Aquinas made Aristotle compatible with Christian beliefs
Physics and Metaphysics Aristotle’s “Physics” (Greek: Φυσικ ὴ ἀ κρόασις or physikes akroasis; Latin: Physica) is one of the foundational books of science and philosophy His book on philosophy is called Metaphysics (Greek: τ ὰ μετ ὰ τ ὰ φυσικά) – beyond physicsGreek
How do things move? Aristotle (c. 350 B.C.) Aristotle observed how things move, and constructed the following theory : Things have a tendency to stay stationary. If you push something, it will move, then return to it’s natural state: stationary. Actually, it will try to return to it’s natural place: smoke and gas will go up, rock and water will go down. If you fire an arrow from a bow, you give it impetus : it will travel until this impetus runs out, at which time it will fall to to ground and return to it’s natural state. This was stated in a series of books called ‘Physics’, and gives us the name of the science. This theory makes intuitive sense, and allows us to make a prediction: rocks won’t move unless they are pushed. People took this as truth for ~1900 years. Wrong, i.e. falsified by experiments!
Aristotle easily falsified by experiment How people thought about projectiles up until the Renaissance: the cannonball moves in almost a straight line, until it runs out of impetus and falls on the house. WRONG!
Aristotle: On the Heavens Aristotle On astronomy Read in Latin throughout the middle ages Renaissance: Greek original
Two realms – eternally separated Sublunar: ever changing, complicated, chaotic, human (i.e. lowly) Supralunar: eternal, no changes other than “perfect” (i.e. complete) circular motion, divine
Prescientific Explanations - Alchemy See online reading Casual observation of patterns in nature –Bubbles of air in water go up, etc. Wrong theory/elements This leads to wrong world views
The Grand Mystification of the Cosmos Aristotle’s thoughts ossified and prevented progress Disempowerment of the inquisitive mind –Trapped in a realm of chaos, what can we do? –There is no connection of what goes on on Earth and in the heavens, so how can we find out? –We are lowly, how can we ask divine questions or question the word of God?
Sun, stand thou still! King James Bible (Joshua 10:12) Then spake Joshua to the LORD in the day when the LORD delivered up the Amorites before the children of Israel, and he said in the sight of Israel, Sun, stand thou still upon Gibeon; and thou, Moon, in the valley of Ajalon.King James Bible Logic: So the Sun usually moves!
The Copernican Revolution
“Strange” motion of the Planets Planets usually move from W to E relative to the stars, but sometimes strangely turn around in a loop, the so called retrograde motion. (Explanation: next lecture!)
Retrograde Motion
Ptolemy (~140 AD) Puts forth a complete geocentric model dominates scientific thought during the Middle Ages Longest lasting (wrong) theory ever: 1000yrs Major Work: Almagest
Epicycles Ptolemy’s explanation of retrograde motion About 40(!) epicycles necessary to explain all observations complicated theory