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Lecture 4, MATH 210G.02, Fall 2016 Greek Mathematcs and Philosophy Goals: Learn a few of the theorems proved by Greek mathematcians Understand some of the Greek philosophy in which mathematcs was developed Lecture 4, MATH 210G.02, Fall 2015 • • • Greek Mathematcs and Philosophy Period 1: 650 BC-400 BC (pre-Plato) Period 2: 400 BC – 300 BC (Plato, Euclid) Period 3: 300 BC – 200 BC (Archimedes, Appolonius, Eratosthenes q Thales (624-547 BC): father of mathematcal proof In the diagram, the rato of the segments AD and DB is the same as the rato of the segments AE and EC A) True B) False Pythagoras • (c. 580-500 BC) In the windmill diagram, the area of the square with side a plus the area of the square with side b equals the area of the square with side c A) True B) False Pythagorean philosophy ☺ ☺ ☺ Transmigraton of souls, purifcaton rites; developed rules of living believed would enable their soul to achieve a higher rank among the gods. Theory that numbers consttute the true nature of things, including music • • • • • • • • • C D E F G A B C 1 9/8 81/64 4/3 3/2 27/16 243/128 2 The diatonic: rato of highest to lowest pitch is 2:1, produces the interval of an octave. Octave in turn divided into ffth and fourth, with ratos 3:2 and 4:3 … up a ffth + up a fourth = up an octave. ffth … divided into three whole tones, each corresponding to the rato of 9:8 and a remainder with a rato of 256:243 fourth into two whole tones with same remainder. harmony… combinaton… of … ratos of numbers … whole cosmos … and individual do not arise by a chance combinatons … must be fted together in a "pleasing" (harmonic) way in accordance with number for an order to arise. htps://en.wikipedia.org/wiki/Pythagorean_tuning π π π π π π Believed the number system … and universe… based on their sum (10) … swore by the “Tetractys” rather than by the gods. Odd numbers were masculine and even were feminine. Hippasos …discovered irratonal numbers…was executed. Hints of “heliocentric theory” discovery that music was based on proportonal intervals of numbers 1—4 • "Bless us, divine number, thou who generated gods and men! O holy, holy Tetractys, thou that containest the root and source of the eternally fowing creaton! For the divine number begins with the profound, pure unity untl it comes to the holy four; then it begets the mother of all, the all-comprising, allbounding, the frst-born, the never-swerving, the nevertring holy ten, the keyholder of all" Clicker queston • • • The number 10 is a perfect number, that is, it is equal to the sum of all of the smaller whole numbers that divide into it. A) True B) False …it was beter to learn none of the truth about mathematcs, God, and the universe at all than to learn a litle without learning all Pythagoreans … believed… when someone was "in doubt as to what he should say, he should always remain silent” Pythagoreans’ inner circle,“mathematkoi” ("mathematcians”); outer circle, “akousmatkoi” ("listeners”) … the akousmatkoi were the exoteric disciples who… listened to lectures that Pythagoras gave out loud from behind a veil. Pythagorean theory of numbers stll debated among scholars. Pythagoras believed in "harmony of the spheres”… that the planets and stars moved according to mathematcal equatons, which corresponded to musical notes and thus produced a symphony Music of the Spheres • A) B) The square root of two is a ratonal number (the rato of two whole numbers) True False The Pythagorean Theorem The Pythagorean Theorem Which of the two diagrams provide “visual proof” of the Pythagoran theorem? A) Left diagram only B) Right diagram only C) Both diagrams together Plato (428 BC – 348 BC), Plato’s Cave Analogy Note ratos: AB:BC :: CD:DE:: AC:CE • A) B) C) D) In Plato’s Divided Line, Mathematcs falls under the following category: Highest form of true knowledge Second highest form of true knowledge A form of belief, but not true knowledge A form of percepton Plato (left) and Aristotle (right) Aristotle (384 BC – 322 BC) • • • • Aristotle’s logic: the syllogism Major premise: All humans are mortal. Minor premise: Socrates is a human. Conclusion: Socrates is mortal. Epictetus and The Stoics (c 300 BC) Stoics believed … knowledge atained through use of reason… Truth distnguishable from fallacy; *even if, in practce, only an approximaton can be made. • Modality (potentality vs actuality). • Conditonal statements. (if…then) • Meaning and truth Euclid’s “Elements” arranged in order many of Eudoxus's theorems, perfected many of Theaetetus's, and brought to irrefutable demonstraton theorems only loosely proved by his predecessors Ptolemy once asked him if there were a shorter way to study geometry than the Elements, … In his aim he was a Platonist, being in sympathy with this philosophy, whence he made the end of the whole "Elements" the constructon of the socalled Platonic fgures. The axiomatc method The Elements begins with defnitons and five postulates. • There are also axioms which Euclid calls 'common notons'. These are not specifc geometrical propertes but rather general assumptons which allow mathematcs to proceed as a deductve science. For example: “Things which are equal to the same thing are equal to each other.”” • Euclid's Postulates A straight line segment can be drawn joining any two points. 2. Any straight line segment can be extended indefnitely in a straight line. 3. Given any straight line segment, a circle can be drawn having the segment as radius and one endpoint as center. 4. All right angles are congruent. 5. If two lines are drawn which intersect a third in such a way that the sum of the inner angles on one side is less than two right angles, then the two lines inevitably must intersect each other on that side if extended far enough. This postulate is equivalent to what is known as the parallel postulate. Euclid's ffth postulate cannot be proven from others, though atempted by many people. Euclid used only 1—4 for the frst 28 propositons of the Elements, but was forced to invoke the parallel postulate on the 29th. In 1823,Bolyai and Lobachevsky independently realized that entrely self-consistent "nonEuclidean geometries" could be created in which the parallel postulate did not hold. Euclid's Postulates 1. A straight line segment can be drawn joining any two points. 2. Any straight line segment can be extended indefnitely in a straight line. 3. Given any straight line segment, a circle can be drawn having the segment as radius and one endpoint as center. 4. All right angles are congruent. 5. If two lines are drawn which intersect a third in such a way that the sum of the inner angles on one side is less than two right angles, then the two lines inevitably must intersect each other on that side if extended far enough. This postulate is equivalent to what is known as the parallel postulate. • • • Euclid's ffth postulate cannot be proven from others, though atempted by many people. Euclid used only 1—4 for the frst 28 propositons of the Elements, but was forced to invoke the parallel postulate on the 29th. In 1823,Bolyai and Lobachevsky independently realized that entrely self-consistent "non-Euclidean geometries" could be created in which the parallel postulate did not hold. Non-Euclidean geometries 1 Non-Euclidean geometries2 Non-Euclidean geometries 3 Clicker queston • • • Euclid’s ffth postulate, the “parallel postulate” can be proven to be a consequence of the other four postulates A) True B) False Archimedes Possibly the greatest mathematcian ever; Theoretcal and practcal Other cultures • • • • Avicenna (980-1037): propositonal logic ~ risk analysis Parallels in India, China, Medieval (1200-1600) Occam (1288-1347) Exercises (solutons on subsequent slide) Explain how the Pythagorean theorem follows from the picture using the formula for the area of a trapezoid Soluton: the Area of a right quadrilateral is the length of the base tmes the average height of the sides, that is, ½(a+b)(a+b). The quadrilateral is also the union of three right triangles, two with area ab/2, the third with area c^2/2. Setng the two areas equal and multplying both by two gives (a+b)^2=2ab+c^2. Multplying out the left hand side and cancelling 2ab on both sides gives a^2+b^2=c^2 Explain how the Pythagorean theorem follows from the picture Soluton: The big square has area c^2. It is made up of 4 triangles of area ab/2 and a small square of area (a-b)^2. Altogether, c^2=2ab+(ab)^2=a^2+b^2 after multplying out and cancelling 2ab. Advanced: Explain how the Pythagorean theorem follows from the picture • • Soluton can be found here: Euclid's proof Prove that the area of the big hexagon is the sum of the areas of the smaller ones Soluton: the trick is that the area of a (regular) hexagon is a fxed multple of that of the square of its side. This area is 3sqrt(3)/2 s^2 since a hexagon is the union of six equilateral triangles which have area Assuming: the area of a semicircle of diameter d is Prove that the area of the big semicircle is the sum of the areas of the smaller ones Soluton: Given the hint, if the triangle has sides a,b,c then the areas of the semicircles are pi a^2/8, pi b^2/8 and pi c^2/8. Multplying all terms by 8/pi and applying the Pythagorean theorem gives the result. Some practce problems • If a=3 and b=4, what is the length c of the hypotenuse of the triangle? c 3 4 Some practce problems • Soluton: by the Pythagorean theorem, c^2=9+16=25 so c=5 c 3 4 • • • • • • e Soluton: If a=5, b=4, c=3, d=3, and e=√5, Then the frst hypotenuse is sqrt(25+16) The second hypotenuse is sqrt(41+9) The third is sqrt(50+9) f The fourth is sqrt(59+5) =sqrt(64)=8 4 a d c 3 b • • • e Soluton: If a=5, b=4, c=3, d=3, and e=√5, fnd f. d c f 3 b 4 a Explain the lengths of the sides of the Pythagorean spiral Soluton: Just apply the Pythagorean theorem successively to each successive triangle. The square of side of next hypotenuse is 1+square of side of previous hypotenuse. • • A ladder is 10 feet long. When the top of the ladder just touches the top a wall, the botom of the ladder is 6 feet from the wall. How high is the wall? • Soluton: The ladder’s length of 10 feet is the length of the hypotenuse of a right triangle whose height is the height along the wall and whose base is the base along the ground. So 10^2 = 6^2+h^2 where h is the height of the wall, or h^2=64, h=9 How high is the wall? • TV screen size is measured diagonally across the screen. A widescreen TV has an aspect rato of 16:9, meaning the rato of its width to its height is 16/9. If Joe has a cabinet that is 34 inches wide, what is the largest size wide screen TV that he can ft in the cabinet? • Soluton: W=(16/9)H where W is the width and H is the height of the TV. The square of the diagonal is W^2+H^2=W^2(1+(9/16)^2). If W^2\leq 34^2 then D\leq 34x sqrt(1+(9/16)^2)\approx 39 Advanced: Extra Credit • • • The spherical law of cosines states that, on a spherical triangle. Cos (c/R) = (cos a/R) (cos b/R) + (sin a/R) (sin b/R) cos γ where R is the radius of the sphere. If the Earth’s radius is 6,371 km, fnd the distance from: from Seatle (48°N, 2°E) to Paris (48°N, 122°W) if traveling due east? from Lincoln, NE (40°N, 96°W) to Sydney, Australia (34°S, 151°E).