The Evolution of Our Number System - PowerPoint PPT Presentation

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The Evolution of Our Number System

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Demonstrate an understanding of the evolution of our numeration system by connecting concepts such as, counting, grouping and place values from the past to the ... – PowerPoint PPT presentation

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Title: The Evolution of Our Number System


1

2
  • Demonstrate an understanding of the evolution of
    our numeration system by connecting concepts such
    as, counting, grouping and place values from the
    past to the present
  • Recognize early systems of numeration
  • Write numbers in Roman, Babylonian, Greek and
    Egyptian

3
  • The Very Beginning
  • Ancient Egypt
  • Ancient Greece
  • Roman Empire
  • Babylonian Numeration
  • The Mayans
  • Hindu-Arabic Numerals
  • Brief History of Zero
  • Timeline

4
D
E
C
B
G
F
A
A. African B. Egyptian C. Babylonian D.
Greek E. Roman F. Mayan G. Hindu-Arabic
5
  • First known form of counting
  • Used grouping
  • Ishango Bone c. 18,000 BC

6
Ishango Region
7
  • Developed in
  • 3400 B.C.
  • Grouping by 10s
  • Additive system
  • Disadvantages
  • Examples
  • 24
  • 124
  • 1240

8
  • Write the following numbers
  • 672
  • 42,320
  • 345
  • 567,922

9
  • Rhind Papyrus, c. 1650 BC

10
  • Moscow Papyrus, c. 1850 BC

11
  • Ciphered numeration system
  • 3000 B.C.
  • Disadvantages
  • Examples
  • 24
  • 124
  • 1240

12
  • Write the following numbers
  • 672
  • 188
  • 345
  • 949
  • 888
  • Convert to our number system
  • ???

13
  • Zenon Papyri, c. 200 AD

14
  • 500 B.C. 100 A.D.
  • Grouping , additivity
  • and subtraction
  • Positional
  • Disadvantages
  • Examples
  • 24
  • 124
  • 1240

15
  • Write the following
  • numbers
  • 672
  • 24
  • 1098
  • 777
  • 479
  • 1776
  • Your birth year

16
  • Convert to our present
  • system
  • XL
  • MDCXII
  • MCMLXIV

17
(No Transcript)
18
D
E
C
B
G
F
A
A. African B. Egyptian C. Babylonian D.
Greek E. Roman F. Mayan G. Hindu-Arabic
19
Maximum Extent of the Babylonian Empire, c. 1750
BC
Maximum Extent of the Egyptian Empire, c. 1500 BC
Maximum Extent of the Roman Empire, c. 15 AD
Homeland Colonies of Greek Civilization, c. 700
BC
Maximum Extent of the Roman Empire, c. 100 AD
20
  • 3000 - 200 B.C.
  • Positional system
  • Place Values
  • Base of 60
  • No place holder
  • Disadvantages
  • Examples Write the following numbers
  • 24 48
  • 124 672
  • 1240 3702
  • Convert to our number system

V
lt
21
  • Bablyonian Tablets, c. 1800 BC

22
  • Bablyonian Tablets, c. 1800 BC

23
  • 300 900 A.D.
  • Place value system
  • Base 20
  • Introduced zero

24
(No Transcript)
25
  • Mayan Codices

26
  • 800 A.D.
  • 10 symbols
  • Grouping by tens
  • Place value
  • Additive and multiplicative

27
(No Transcript)
28
  • Who discovered it? Why?
  • Place holder (space, , ? )
  • A number itself (7th century India)
  • the sum of zero and a number is the number
  • zero subtracted from a number is the number
  • zero multiplied by a number is zero
  • zero divided by a number is zero
  • a number divided by zero is
  • Zero divide by zero is .

29
  • 3000 BC Egyptian Numerals
  • 2000 BC Babylonian (Iran/Iraq)
  • 400 BC Greek Ciphered Numerals
  • 100 BC 500 AD Roman Empire
  • 300 BC Mayan (Central America)
  • 500 AD Hindu Numerals
  • 800 AD Arabs adopt Hindu Numerals
  • 500 1100 Dark Ages in Europe
  • 1202 Fibonacci publishes Liber Abaci

30
  • Which numeration system do you think works best?
    Why?
  • How important is zero in our Hindu Arabic System?
  • Do you think our numeration system will continue
    to evolve?
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