Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Yes, I read a large magnitude of papers. Great and happy scribing. Perfectly written. Wonderful for me – Jim Troutman 3.141592653589793238.

Published byCharles Ellis Modified over 9 years ago

Similar presentations

Presentation on theme: "1 Yes, I read a large magnitude of papers. Great and happy scribing. Perfectly written. Wonderful for me – Jim Troutman 3.141592653589793238."— Presentation transcript:

1 1 Yes, I read a large magnitude of papers. Great and happy scribing. Perfectly written. Wonderful for me – Jim Troutman 3.141592653589793238

2 2 Cultural Connection The Asian Empires China before 1260 A.D. Student led discussion. India before 1206 A.D. Rise of Islam 622 A.D. - 1250 A.D.

3 3 7 – Chinese, Hindu, and Arabian Mathematics The student will learn about Early mathematics from the east and middle east regions.

4 4 §7-1 China – sources and periods Student Discussion.

5 5 §7-2 China – Shang to the Tang Student Discussion.

6 6 §7-3 China – Tang to the Ming Student Discussion.

7 7 §7-3 China –Tang to Ming 11121 21222 31328 41456 515 61670 717 818See page 218 919 1020 Chinese Rod System

8 8 §7-4 China – Concluding Remarks Student Discussion.

9 9 §7-5 India - General Survey Student Discussion.

10 10 §7-5 India - Ramanujan Srinivasa Ramanujan (1887 – 1920) Taxi Number 1 3 +12 3 = 1729 = 9 3 + 10 3 is very nearly an integer. It is about 2.62537  10 17 which is an integer followed by twelve zeros. That is, it is eighteen digits a decimal point followed by twelve zeros before the next non zero digit!!!! * *

11 11 §7-5 India - Ramanujan 2 Srinivasa Ramanujan (1887 – 1920) * * *

12 12 §7-6 Number Computing Student Discussion.

13 13 §7-6 Multiplication 237 x 45 = 237 x 5 + 237 x 40 2 3 7 x 5 1 0 1 5 8 5 2 3 7 x 4 0 8 9 2 4 80 1 1 8 5 + 9 4 8 0 1 05 6 65

14 14 §7-6 Multiplication 237 x 45By lattice 2 3 7 4 5 3 5 2 8 1 5 1 2 1 0 0 8 5661 0

15 15 §7-7 Arithmetic and Algebra Student Discussion.

16 16 §7–8 Geometry and Trigonometry Student Discussion.

17 17 §7–8 Geometry and Trigonometry Area of a cyclic quadrilateral. K 2 = (s – a)(s – b)(s – c)(s – d) Diagonals of a cyclic quadrilateral.

18 18 §7–9 Contrast Greek & Hindu Student Discussion.

19 19 §7–10 Arabia – Rise of Moslem Culture Student Discussion.

20 20 §7–11 Arabia – Arithmetic & Algebra Student Discussion.

21 21 §7–11 Arabia – Arithmetic & Algebra Casting out nines. Method of false positioning. x + x/4 = 30 Try ____ ?

22 22 §7–12 Arabia – Geometry & Trigonometry Student Discussion.

23 23 §7– 13 Arabia Etymology Student Discussion.

24 24 §7–14 Arabia – Contribution Student Discussion.

25 25 Assignment Read Chapter 8

26 26 Quadratic Solutions 1 The Greeks and Hindu’s used a method similar to our completing the square. x 2 + p x = q The unshaded portion to the right is x 2 + p x or q. If we add the shaded region (p/2) 2 we get a square with side of x + p/2. (x + p/2) 2 = q + (p/2) 2 OR x x p/2

27 27 Quadratic Solutions 1b x 2 + p x = q P = 10, q = 39, p/2 = 5 and (p/2) 2 = 25 (x + 5) 2 = 8 2 x x 10/2 x 2 + 10 x = 39 x 2 + 10 x + 25 = 39 + 25 = 64 x + 5 = 8 x = 8 – 5 = 3

28 28 Quadratic Solutions 2 Al-Khowârizmî’s Solution Method x 2 + p x = q The unshaded portion to the right is x 2 + p x or q. If we add the shaded region 4 (p/4) 2 we get a square with side of x + p/2. (x + 2(p/4)) 2 = q + 4 · (p/4) 2 OR xp/4

29 29 Quadratic Solutions 2b x 2 + p x = q P = 10, q = 39, p/4 = 5/2 and (p/4) 2 = 25/4 (x + 5) 2 = 8 2 x 2 + 10 x = 39 x 2 + 10 x + 4 · (25/4) = 39 + 4 · 25/4 = 64 x + 5 = 8 x = 8 – 5 = 3 xp/4

30 30 Chinese Remainder Theorem 2 Let n 1, n 2,..., n r be positive integers so that the g.c.d. (n i, n j ) = 1 for i  j, then the system of linear congruencies - x  a 1 (mod n 1 ), x  a 2 (mod n 2 ),..., x  a r (mod n r ). Has a simultaneous solution, which is unique modulo (n 1 · n 2 ·... · n r ), namely,  = a 1 N 1 x 1 + a 2 N 2 x 2 +... + a r N r x r where N k = n 1 · n 2 · · · n r | n k and x k = solution to N k x k  1 (mod n k )

31 31 Chinese Remainder Theorem 2b  = a 1 N 1 x 1 + a 2 N 2 x 2 + a 3 N 3 x 3 n 1 = 3 n 2 = 5 n 3 = 8 then x  2 (mod 3) x  1 (mod 5) x  4 (mod 8) has a unique solution. a 1 = 2 a 2 = 1 a 3 = 4 n = n 1 · n 2 · n 3 = 3 · 5 · 8 = 120 N 1 = 120 | 3 = 40 N 2 = 120 | 5 = 24 N 3 = 120 | 8 = 15 and 40 · x 1  1 (mod 3) yields x 1 = 1 24 · x 2  1 (mod 5) yields x 2 = 4 15 · x 3  1 (mod 8) yields x 3 = 7

32 32 Chinese Remainder Theorem 2b  = a 1 N 1 x 1 + a 2 N 2 x 2 + a 3 N 3 x 3 then is a unique solution to a 1 = 2 a 2 = 1 a 3 = 4 N 1 = 40 N 2 = 24 N 3 = 15 Substitute into x 1 = 1 x 2 = 4 x 3 = 7  = 2 · 40 · 1 + 1 · 24 · 4 + 4 · 15 · 7 = x  2 (mod 3) x  1 (mod 5) x  4 (mod 8) Note: Unique modulo 120 (3 · 5 · 8) So 596, 476, 356, 236, 116 are all solutions Confirm 116 is a solution. 596

Download ppt "1 Yes, I read a large magnitude of papers. Great and happy scribing. Perfectly written. Wonderful for me – Jim Troutman 3.141592653589793238."

Similar presentations

Mod arithmetic.

Mod arithmetic.
22C:19 Discrete Structures Integers and Modular Arithmetic

22C:19 Discrete Structures Integers and Modular Arithmetic
22C:19 Discrete Math Integers and Modular Arithmetic Fall 2010 Sukumar Ghosh.

22C:19 Discrete Math Integers and Modular Arithmetic Fall 2010 Sukumar Ghosh.
Number Theory and Cryptography

Number Theory and Cryptography
Binary Addition Rules Adding Binary Numbers = = 1

Binary Addition Rules Adding Binary Numbers = = 1
Solving Quadratic Equations Algebraically Lesson 2.2.

Solving Quadratic Equations Algebraically Lesson 2.2.
Congruence class arithmetic. Definitions: a ≡ b mod m iff a mod m = b mod m. a  [b] iff a ≡ b mod m.

Congruence class arithmetic. Definitions: a ≡ b mod m iff a mod m = b mod m. a  [b] iff a ≡ b mod m.
Chapter 4 Numeration and Mathematical Systems

Chapter 4 Numeration and Mathematical Systems
Mathematics of Cryptography Part I: Modular Arithmetic, Congruence,

Mathematics of Cryptography Part I: Modular Arithmetic, Congruence,
Fall 2002CMSC 203 - Discrete Structures1 Let us get into… Number Theory.

Fall 2002CMSC Discrete Structures1 Let us get into… Number Theory.
Peter Lam Discrete Math CS.  Sometimes Referred to Clock Arithmetic  Remainder is Used as Part of Value ◦ i.e Clocks  24 Hours in a Day However, Time.

Peter Lam Discrete Math CS.  Sometimes Referred to Clock Arithmetic  Remainder is Used as Part of Value ◦ i.e Clocks  24 Hours in a Day However, Time.
The Integers and Division

The Integers and Division
Chapter 4 Numeration and Mathematical Systems

Chapter 4 Numeration and Mathematical Systems
MATHEMATICS CURRICULUM FOR SA I. DIVISION OF MARKS UNITMARKS NUMBER SYSTEMS11 ALGEBRA23 GEOMETRY17 TRIGONOMETRY22 STATISTICS17 TOTAL90 FIRST TERM.

MATHEMATICS CURRICULUM FOR SA I. DIVISION OF MARKS UNITMARKS NUMBER SYSTEMS11 ALGEBRA23 GEOMETRY17 TRIGONOMETRY22 STATISTICS17 TOTAL90 FIRST TERM.
Mathematics of Cryptography Part I: Modular Arithmetic, Congruence,

Mathematics of Cryptography Part I: Modular Arithmetic, Congruence,
Hero’s and Brahmagupta’s Formulas Lesson 11.8. Hero of Alexandria He was an ancient Greek mathematician and engineer who was born in 10 AD. He invented.

Hero’s and Brahmagupta’s Formulas Lesson Hero of Alexandria He was an ancient Greek mathematician and engineer who was born in 10 AD. He invented.
Chapter 3 Greek Number Theory The Role of Number Theory Polygonal, Prime and Perfect Numbers The Euclidean Algorithm Pell’s Equation The Chord and Tangent.

Chapter 3 Greek Number Theory The Role of Number Theory Polygonal, Prime and Perfect Numbers The Euclidean Algorithm Pell’s Equation The Chord and Tangent.
© by Kenneth H. Rosen, Discrete Mathematics & its Applications, Sixth Edition, Mc Graw-Hill, 2007 Chapter 3 (Part 2): The Fundamentals: Algorithms, the.

© by Kenneth H. Rosen, Discrete Mathematics & its Applications, Sixth Edition, Mc Graw-Hill, 2007 Chapter 3 (Part 2): The Fundamentals: Algorithms, the.
Whole Numbers Are the whole numbers with the property of addition a group?

Whole Numbers Are the whole numbers with the property of addition a group?
Mathematics of Cryptography Part I: Modular Arithmetic

Mathematics of Cryptography Part I: Modular Arithmetic

Similar presentations

Ads by Google