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11.4: The Earliest Applications of Linear Algebra

11.4: The Earliest Applications of Linear Algebra. By: Sid & Zoheb. History of Linear Algebra. Emerged from the study of determinants, Leibniz Gabriel Cramer: Cramer’s Rule Gauss: Gaussian elimination All were used to solve linear systems. Ancient Civilizations & Linear Systems.

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11.4: The Earliest Applications of Linear Algebra

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  1. 11.4: The Earliest Applications of Linear Algebra By: Sid & Zoheb

  2. History of Linear Algebra • Emerged from the study of determinants, Leibniz • Gabriel Cramer: Cramer’s Rule • Gauss: Gaussian elimination • All were used to solve linear systems

  3. Ancient Civilizations & Linear Systems • “Linear systems can be found in the earliest writings of many ancient civilizations” • Practical problems of early civilizations included the measurement of land, distribution of goods, tracks of resources, and taxation • Predate the Islamic mathematicians who created the field of algebra, which eventually led to the branch of linear algebra

  4. EGYPT

  5. Egyptian Math • 1650 B.C • Ahmes (Rhind) Papyrus -5 meters long -84 “short” mathematical problems + solutions -Hieratic -geometry, notation, mensuration, algebra, arithmetic

  6. Problem 40 • Divide 100 hekats(Ancient Egyptian volume unit, equivalent to 4.8 liters today) of barley among 5 men in arithmetic progression so that the sum of the smallest is one-seventh the sum of the three largest.

  7. Solution to Problem 40(Egyptian Style) • Step 1: Define Variables. a=least amount that any man obtains, d=common difference of the terms • Step 2: set-up equations- a+(a+d)+(a+2d)+(a+3d)+(a+4d)=100 - (1/7)((a+2d)+(a+3d)+(a+4d))=a+(a+d) • 5a+10d=100 • 11a-2d=0

  8. Methods to solve for a and d • Graph • Substitution • Elimination • Gauss-Jordan • Multiply inverse of A by the answer matrix • Cramer’s Rule • False position/assumption(The Egyptian Way)

  9. False Position/Assumption Method • 5a + 10d=100 11a-2d=0 Step 1: Assume a convenient value of a:(a=1) Step 2: substitute the value of a to second equation. (d=11/2) Step 3: insert a and d values to first equation(you get 60 which is not equal to 100) Step 4: 100/60 *1(assumed a)=5/3=a(real a)

  10. False Position/Assumption Method cont. • Step 5: substitute a=5/3 into second equation. d=55/6 • Answer: the quantities of barley by the five men are : 10/6, 65/6, 120/6,175/6,230/6

  11. Greece

  12. Greek Linear Systems • 3rd century B.C • Most famous problem: Archimedes’ celebrated Cattle problem • Challenge for Eratosthenes by Archimedes. • No solution from ancient times, not known how the greeks solved it

  13. Cattle Problem If thou art diligent and wise, O stranger, compute the number of cattle of the Sun, who once upon a time grazed on the fields of the Thrinacian isle of Sicily, divided into four herds of different colours, one milk white, another a glossy black, a third yellow and the last dappled. In each herd were bulls, mighty in number according to these proportions: Understand, stranger, that the white bulls were equal to a half and a third of the black together with the whole of the yellow, while the black were equal to the fourth part of the dappled and a fifth, together with, once more, the whole of the yellow. Observe further that the remaining bulls, the dappled, were equal to a sixth part of the white and a seventh, together with all of the yellow. These were the proportions of the cows: The white were precisely equal to the third part and a fourth of the whole herd of the black; while the black were equal to the fourth part once more of the dappled and with it a fifth part, when all, including the bulls, went to pasture together. Now the dappled in four parts were equal in number to a fifth part and a sixth of the yellow herd. Finally the yellow were in number equal to a sixth part and a seventh of the white herd. If thou canst accurately tell, O stranger, the number of cattle of the Sun, giving separately the number of well-fed bulls and again the number of females according to each colour, thou wouldst not be called unskilled or ignorant of numbers, but not yet shalt thou be numbered among the wise.

  14. Variables for Cattle Problem • W=number of white bulls • B=number of black bulls • Y=number of yellow bulls • D=number of dappled bulls • w= number of white cows • b=number of black cows • y=number of yellow cows • d=number of dappled cows

  15. Equations • “The white bulls were equal to a half and a third of the black bulls together with the whole of the yellow bulls W=(.5+1/3)B+Y “The black bulls were equal to the fourth part of the dappled bulls and a fifth, together with, once more, the whole of the yellow bulls B(.25+.2)D+Y

  16. Equations Cont. • The remaining bulls, the dappled, were equal to a sixth part of the white bulls and a seventh, together with all of the yellow bulls. • D=(1/6+1/7)W+Y • The white cows were precisely equal to the third part and a fourth of the whole herd of the black • w=(1/3+1/4)(B+b)

  17. Equations Cont. • The black cows were equal to the fourth parth once more of the dappled and with it a 5th part when all including the bulls, went to pasture together • b=(1/4+1/5)(D+d) • The dappled cows in four parts were equal in number to a fifth part and a sixth of the yellow herd • d=(1/5+1/6)(Y+y)

  18. Equations Cont. • The yellow cows were in number equal to a sixth part and a seventh of the white herd • Y=(1/6 + 1/7)(W+w)

  19. After some math • W=10,366,482k • B=7,460,514k • Y=4,149,387k • D=7,358,060k • w=7,206,360k • b=4,893,246k • y=5439213k • d=3,515,820k

  20. India

  21. Indian Math • Fourth century A.D • Bakhsali Manuscript -70 leaves or sheets of birch bark -mathematical problems and solutions -equalization problems that leads to systems of linear equations

  22. Indian Problem • Once merchant has seven asava horses, a second has 9 haya horses, and a third has then camels. They are equally well off in the value of their animals if each gives two animals, one to each of the others. Find the price of each animals possessed by each merchant

  23. Variables & Equations • x=price of an asava horse • y=price of a haya horse • z= price of a camel • K= total value of animals • 5x +y +z=K • x + 7y +z=K • x + y +8z= K

  24. Solution Method subtract (x+y+z) from both sides of each equation 4x=6y=7z=K-(x+y+z) K-(x+y+z) must be an integer that is divisible by 4,6,7. so it equals 4*6*7=168 Plugging it into the equation above. x=42, y=28, z=24

  25. China

  26. Chinese Problems • There are three classes of corn, of which three bundles of the first class, two of the second, and one of the third make 39. Two of the first, three of the second and one of the third make 34. And one of the first, two of the second, and three of the third make 26. How many measures of corn are contained in one bundle of each class?

  27. Game #1 • A passenger jet took three hours to fly 1800 miles in the direction of the jetstream. The return trip against the jetstream took four hours. What was the jet's speed in still air and the jetstream's speed?

  28. Problem 63 of the Ahmes • 700 loaves are to be divided among recipients in the following proportions: 2/3; ½;1/3;1/4 How much does each person receive?

  29. Problem 24 • Find the heep if the heap and a seventh of the heep is 19. Use False position

  30. Berlin Papyrus #1 •  You are told the area of a square of 100 square cubits is equal to that of two smaller squares, the side of one square is 1/2 + 1/4 of the other. What are the sides of the two unknown squares.

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