Uploaded bysmillertx281
PPT, PDF728 views

1 1 number theory

The document provides an overview of topics in number theory including: - Number systems such as natural numbers, integers, and real numbers - Properties of real numbers like closure, commutativity, associativity, identity, and inverse properties - Rational and irrational numbers - Order of operations - Absolute value - Intervals on the number line - Finite and repeating decimals - Converting between fractions and decimals

Embed presentation

Downloaded 31 times
Unit 1 Functions and Relations 1-1 Number Theory Number Systems Rational and Irrational Numbers 1-2 Functions and Linear Graphs Functions and Function Notation 1-1 and Onto Graphing 1-3 Equations and Inequalities Solving Linear and Quadratic Equations and Inequalities Solving for a Variable
1-1 Number Theory Unit 1 Functions and Relations
Concepts and Objectives Number Theory (Obj. #1) Identify subsets of real numbers Simplify expressions using order of operations Identify real number axioms Rational Numbers (Obj. #2) Convert between fractions and decimals
Number Systems What we currently know as the set of real numbers was only formulated around 1879. We usually present this as sets of numbers.
Number Systems The set of natural numbers (  ) and the set of integers (  ) have been around since ancient times, probably prompted by the need to maintain trade accounts. Ancient civilizations, such as the Babylonians, also used ratios to compare quantities. One of the greatest mathematical advances was the introduction of the number 0.
Properties of Real Numbers Closure Property a + b   ab   Commutative Property a + b = b + a ab = ba Associative Property ( a + b ) + c = a + ( b + c ) ( ab ) c = a ( bc ) Identity Property a + 0 = a a  1 = a Inverse Property a + (– a ) = 0 Distributive Property a ( b + c ) = ab + ac For all real numbers a , b , and c :
Properties of Real Numbers The properties are also called axioms . 0 is called the additive identity and 1 is called the multiplicative identity . Notice the relationships between the identities and the inverses (called the additive inverse and the multiplicative inverse ). Saying that a set is “closed” under an operation (such as multiplication) means that performing that operation on numbers in the set will always produce an answer that is also in the set – there are no answers outside the set.
Properties of Real Numbers Examples The set of natural numbers (  ) is not closed under the operation of subtraction. Why? – 20  5 = –4. Does this show that the set of integers is closed under division?
Properties of Real Numbers Examples The set of natural numbers (  ) is not closed under the operation of subtraction. Why? 5 – 7 = –2, which is not in  . – 20  5 = –4. Does this show that the set of integers is closed under division? No. Any division that has a remainder is not in  .
Order of Operations Parentheses (or other grouping symbols, such as square brackets or fraction bars) – start with the innermost set, following the sequence below, and work outward. Exponents Multiplication Division Addition Subtraction working from left to right working from left to right
Order of Operations Use order of operations to explain why We can think of –3 as being –1  3. Therefore we have It should be easier now to see that on the left side we multiply first and then apply the exponent, and on the right side, we apply the exponent and then multiply.
Order of Operations Work the following examples without using your calculator.
Order of Operations Work the following examples without using your calculator. 1. –6 2. –60
Absolute Value The absolute value of a real number a , denoted by | a |, is the distance from 0 to a on the number line. This distance is always taken to be nonnegative.
Absolute Value Properties For all real numbers a and b :
Absolute Value Example: Rewrite each expression without absolute value bars.
Absolute Value Example: Rewrite each expression without absolute value bars. 2.  – 2 3. –1
Rational Numbers The Greeks, specifically Pythagoras of Samos, originally believed that the lengths of all segments in geometric objects could be expressed as ratios of positive integers. A number is a rational number (  ) if and only if it can be expressed as the ratio (or quotient) of two integers. Rational numbers include decimals as well as fractions. The definition does not require that a rational number must be written as a quotient of two integers, only that it can be.
Examples Example: Prove that the following numbers are rational numbers by expressing them as ratios of integers. 1. 2 -4 4. 2. 64 -½ 5. 3. 6. –5.4322986
Examples Example: Prove that the following numbers are rational numbers by expressing them as ratios of integers. 1. 2 -4 4. 2. 64 -½ 5. 3. 6. –5.4322986 4
Irrational Numbers Unfortunately, the Pythagoreans themselves later discovered that the side of a square and its diagonal could not be expressed as a ratio of integers. Prove is irrational. Proof (by contradiction): Assume is rational. This means that there exist relatively prime integers a and b such that
Irrational Numbers This means there is an integer j such that 2 j=a . If a and b are both even, then they are not relatively prime. This is a contradiction. Therefore, is irrational. Theorem: Let n be a positive integer. Then is either an integer or it is irrational.
Real Numbers The number line is a geometric model of the system of real numbers. Rational numbers are thus fairly easy to represent: What about irrational numbers? Consider the following:  (1,1)
Real Numbers In this way, if an irrational number can be identified with a length, we can find a point on the number line corresponding to it. What this emphasizes is that the number line is continuous —there are no gaps.
Intervals b a b a b a b a b a b a b a b a b a b a b a b a Name of Interval Notation Inequality Description Number Line Representation finite, open ( a , b ) a < x < b finite, closed [ a , b ] a  x  b finite, half-open ( a , b ] [ a , b ) a < x  b a  x < b infinite, open ( a ,  ) (-  , b ) a < x <  -  < x < b infinite, closed [ a ,  ) [-  , b ] a  x <  -  < x  b
Finite and Repeating Decimals If a nonnegative real number x can be expressed as a finite sum of of the form where D and each d n are nonnegative integers and 0  d n  9 for n = 1, 2, …, t , then D . d 1 d 2 … d t is the finite decimal representing x .
Finite and Repeating Decimals If the decimal representation of a rational number does not terminate, then the decimal is periodic (or repeating ). The repeating string of numbers is called the period of the decimal. It turns out that for a rational number where b > 0, the period is at most b – 1.
Finite and Repeating Decimals Example: Use long division (yes, long division) to find the decimal representation of and find its period. What is the period of this decimal?
Finite and Repeating Decimals Example: Use long division (yes, long division) to find the decimal representation of and find its period. What is the period of this decimal? 6
Finite and Repeating Decimals The repeating portion of a decimal does not necessarily start right after the decimal point. A decimal which starts repeating after the decimal point is called a simple-periodic decimal; one which starts later is called a delayed-periodic decimal. Type of Decimal Examples General Form terminating 0.5, 0.25, 0.2, 0.125, 0.0625 simple-periodic delayed-periodic
Decimal Representation If we know the fraction, it’s fairly straightforward (although sometimes tedious) to find its decimal representation. What about going the other direction? How do we find the fraction from the decimal, especially if it repeats? We’ve already seen how to represent a terminating decimal as the sum of powers of ten. More generally, we can state that the decimal 0. d 1 d 2 d 3 … d t can be written as , where M is the integer d 1 d 2 d 3 … d t .
Decimal Representation For simple-periodic decimals, the “trick” is to turn them into fractions with the same number of 9s in the denominator as there are repeating digits and simplify: To put this more generally, the decimal can be written as the fraction , where M is the integer d 1 d 2 d 3 … d p .
Decimal Representation For delayed-periodic decimals, the process is a little more complicated. Consider the following: What is the decimal representation of ? is the product of what two fractions? Notice that the decimal representation has characteristics of each factor.
Decimal Representation It turns out you can break a delayed-periodic decimal into a product of terminating and simple-periodic decimals, so the general form is also a product of the general forms: The decimal can be written as the fraction , where N is the integer d 1 d 2 d 3 … d t d t +1 d t +2 d t +3 … d t + p – d 1 d 2 d 3 … d t .
Decimal Representation Example: Convert the decimal to a fraction.
Decimal Representation Example: Convert the decimal to a fraction. It’s possible this might reduce, but we can see that there are no obvious common factors (2, 3, 4, 5, 6, 8, 9, or 10), so it’s okay to leave it like this.

More Related Content

PDF
An applied approach to calculas
byTarun Gehlot
 
PDF
Ch01 se
byparulian
 
PDF
CBSE Class 10 Mathematics Real Numbers Topic
byEdvie
 
PPTX
Rational Numbers
byManisha Keim
 
PPT
Properties of rational number explained
byShivani Sharma
 
PPTX
MIT Math Syllabus 10-3 Lesson 3: Rational expressions
byLawrence De Vera
 
PPT
Solving Inequalities (Algebra 2)
byrfant
 
PPT
Segments and Properties of Real Numbers (Geometry 2_2)
byrfant
 
An applied approach to calculas
byTarun Gehlot
 
Ch01 se
byparulian
 
CBSE Class 10 Mathematics Real Numbers Topic
byEdvie
 
Rational Numbers
byManisha Keim
 
Properties of rational number explained
byShivani Sharma
 
MIT Math Syllabus 10-3 Lesson 3: Rational expressions
byLawrence De Vera
 
Solving Inequalities (Algebra 2)
byrfant
 
Segments and Properties of Real Numbers (Geometry 2_2)
byrfant
 

What's hot

PPTX
The Real Numbers
bySierra Nichols
 
PDF
Tenth class state syllabus-text book-em-ap-ts-mathematics
byNaukriTuts
 
PDF
Cbse class-8th-rational numbers-amans-maths-blogs
byAMAN KUMAR VISHWAKARMA
 
PPTX
Lecture 01 reals number system
byHazel Joy Chong
 
PPTX
Rational numbers
byprerna sharma
 
PPT
Properties of Real Numbers
byrfant
 
PPT
Real numbers
byMark Ryder
 
PPTX
School Project-Mathematics-properties of rational numbers, Square and square ...
bySwethaRM2
 
PDF
Basic Algebra Ppt 1.1
byCincinnati State
 
PPTX
NUMBER SYSTEM
byShikha Pandey
 
PPTX
Mathematics assignment
byAditya Chowdhary
 
PPT
Savitch Ch 03
byTerry Yoast
 
PPTX
Inequalities lesson 4
byKathManarang
 
PDF
1.3.2 Inductive and Deductive Reasoning
bysmiller5
 
PPTX
Real numbers
byFarhan Alam
 
PPT
A16-1 One-Step Linear Inequalities
byvhiggins1
 
PPT
Distributive Property (Algebra 1)
byrfant
 
PPTX
Quant01. Ratio & Proportion, Indices, Logarithms
byCPT Success
 
PPTX
1.1/1.2 Properties of Real Numbers
byleblance
 
The Real Numbers
bySierra Nichols
 
Tenth class state syllabus-text book-em-ap-ts-mathematics
byNaukriTuts
 
Cbse class-8th-rational numbers-amans-maths-blogs
byAMAN KUMAR VISHWAKARMA
 
Lecture 01 reals number system
byHazel Joy Chong
 
Rational numbers
byprerna sharma
 
Properties of Real Numbers
byrfant
 
Real numbers
byMark Ryder
 
School Project-Mathematics-properties of rational numbers, Square and square ...
bySwethaRM2
 
Basic Algebra Ppt 1.1
byCincinnati State
 
NUMBER SYSTEM
byShikha Pandey
 
Mathematics assignment
byAditya Chowdhary
 
Savitch Ch 03
byTerry Yoast
 
Inequalities lesson 4
byKathManarang
 
1.3.2 Inductive and Deductive Reasoning
bysmiller5
 
Real numbers
byFarhan Alam
 
A16-1 One-Step Linear Inequalities
byvhiggins1
 
Distributive Property (Algebra 1)
byrfant
 
Quant01. Ratio & Proportion, Indices, Logarithms
byCPT Success
 
1.1/1.2 Properties of Real Numbers
byleblance
 

Viewers also liked

PPT
Mc donaldization of society(final)
byMohamed Mousa
 
PPTX
Marxism presentation
bySan Juan
 
PPT
Marxism by Rameez Ahmed
byRameez Ahmed
 
PPTX
Elton mayo hawthorne experiment
byAbhishek Bhoj
 
PPT
Functionalism
byDustin Kidd
 
PPT
what is sociological theory
byKostyk Elf
 
PPTX
Marx Weber Durkheim
bybchozinski
 
PPTX
Scientific management
byJeannifer Villanueva
 
PPTX
Principles of Scientific Management (F.W. Taylor)
byDeep Gurung
 
PPTX
Functionalism
byallstar101
 
PPTX
Principles of scientific management
byVarun Vijay
 
PPT
Taylorism
byJyotsna Pantula
 
PPTX
Management thought
byanuj9753
 
PPTX
2014 marxism powerpoint
bygordonewhs
 
PPT
fordism
byguest65d83f
 
PPT
History of fordism
byasriekarwanti
 
DOCX
Soc 402 week 2 dq 1 mc donaldization
bysuperbessaywriters.com
 
DOC
Funtionalism
bygueste4a62f
 
PPTX
The 3 P’S Of Successful Branding
byUjjawal.Bagaria
 
PPS
Tylorism
byProf.Suresh Isave
 
Mc donaldization of society(final)
byMohamed Mousa
 
Marxism presentation
bySan Juan
 
Marxism by Rameez Ahmed
byRameez Ahmed
 
Elton mayo hawthorne experiment
byAbhishek Bhoj
 
Functionalism
byDustin Kidd
 
what is sociological theory
byKostyk Elf
 
Marx Weber Durkheim
bybchozinski
 
Scientific management
byJeannifer Villanueva
 
Principles of Scientific Management (F.W. Taylor)
byDeep Gurung
 
Functionalism
byallstar101
 
Principles of scientific management
byVarun Vijay
 
Taylorism
byJyotsna Pantula
 
Management thought
byanuj9753
 
2014 marxism powerpoint
bygordonewhs
 
fordism
byguest65d83f
 
History of fordism
byasriekarwanti
 
Soc 402 week 2 dq 1 mc donaldization
bysuperbessaywriters.com
 
Funtionalism
bygueste4a62f
 
The 3 P’S Of Successful Branding
byUjjawal.Bagaria
 
Tylorism
byProf.Suresh Isave
 

Similar to 1 1 number theory

PDF
Review of basic algebraic concept
byarvin efriani
 
PPT
นำเสนอจำนวนจริงเพิ่มเติม
byNittaya Noinan
 
PDF
0.1 Number Theory
bysmiller5
 
PPT
Lesson 1 1 properties of real numbers
byTerry Gastauer
 
PPT
College algebra -REAL Numbers
byMaria Romina Angustia
 
PPT
number system school ppt ninth class
byManan Jain
 
PPTX
Chapter 2 Lesson 1 The Set of Real Numbers.pptx
byJeloubelleDesabille2
 
PPT
Real numbers system
byPradeep Agrawal
 
PDF
Secondary Lecture
byAmalia Indrawati Gunawan
 
PPTX
number system full explanation presentation
byShaluThakur23
 
PDF
Real numbers
bySupriya Anand
 
PPT
Number and operations review1
byInstitute of Applied Technology
 
PDF
0.2 Real Number Properties
bysmiller5
 
PPTX
Introduction
byAwais Khan
 
PPT
Number systems
byAnkit Goel
 
PPT
1.1 real numbers & operations
byfthrower
 
PDF
Algebra 101 real numbers and the real number line
byChloeDaniel2
 
PPT
2. Integers and their OPP & Rational Integers.ppt
by20403068
 
PDF
1 1 number theory
bysmillertx281
 
PPT
นำเสนอจำนวนจริงเพิ่มเติม
byNittaya Noinan
 
Review of basic algebraic concept
byarvin efriani
 
นำเสนอจำนวนจริงเพิ่มเติม
byNittaya Noinan
 
0.1 Number Theory
bysmiller5
 
Lesson 1 1 properties of real numbers
byTerry Gastauer
 
College algebra -REAL Numbers
byMaria Romina Angustia
 
number system school ppt ninth class
byManan Jain
 
Chapter 2 Lesson 1 The Set of Real Numbers.pptx
byJeloubelleDesabille2
 
Real numbers system
byPradeep Agrawal
 
Secondary Lecture
byAmalia Indrawati Gunawan
 
number system full explanation presentation
byShaluThakur23
 
Real numbers
bySupriya Anand
 
Number and operations review1
byInstitute of Applied Technology
 
0.2 Real Number Properties
bysmiller5
 
Introduction
byAwais Khan
 
Number systems
byAnkit Goel
 
1.1 real numbers & operations
byfthrower
 
Algebra 101 real numbers and the real number line
byChloeDaniel2
 
2. Integers and their OPP & Rational Integers.ppt
by20403068
 
1 1 number theory
bysmillertx281
 
นำเสนอจำนวนจริงเพิ่มเติม
byNittaya Noinan
 

Recently uploaded

PDF
Multiple Myeloma , definition, etiology, PP, CM , DE and management
byNisha Borsa
 
PPTX
Multiple Linear Regression - Least Square Method X₁ on X₂ and X₃
bySundar B N
 
PPTX
Partial Correlation - Values of r₁₂.₃, r₂₃.₁ & r₁₃.₂ r₁₂, r₁₃ and r₂₃
bySundar B N
 
PDF
Comprehensive Principles, Design Techniques, and Applications of Electronic O...
byGS Virdi
 
PPTX
4 G8_Q3_L4 (Evaluating opinion editorials for textual evidence and quality).pptx
byNorafeSahagun
 
PDF
The voice of the rain poem class 11th.pdf
byReeta Baral
 
PPTX
Expected Revenue Report In Odoo 18 CRM
byCeline George
 
PPTX
How to Access Revenue Report in Odoo 18 Events
byCeline George
 
PDF
Blood Group Incompatibility: Rh Factor and Erythroblastosis Fetalis
bySudhandraKarthi
 
PPTX
Access partner report in Odoo 18.2 _ Odoo 19
byCeline George
 
PDF
M.Sc. Nonchordates Complete Syllabus PPT | All Important Topics Covered
byKNIPSS SULTANPUR
 
PPTX
GROWTH & DEVELOPMENT MILESTONES (INFANTS).pptx
byAneetaSharma15
 
PDF
Types of eggs and Egg membranes (Developmental Zoology)
bySudhandraKarthi
 
PDF
SIHMA Scalabrini Institute for Human Mobility in Africa(SIHMA) - Annual Repor...
byScalabrini Institute for Human Mobility in Africa
 
PPTX
cis.jackson.alaysia.ResearchPresentation 1.Microsoft Teams vs Zoom vs Webex v...
byMerritt College
 
PDF
Cultivating Greatness Pune's Best Preschools and Schools.pdf
byWellington College
 
PPTX
Brahma_Muhurta_Presentation Ayurvedic Perspective
bySudha Sumathy
 
PDF
Environmental Studies Module 1 BBA,BCCA Sem 1 NEP.pdf
byJayanti Pande
 
PPTX
Isolation, Identification and Analysis of phytoconstituents.
byD. Y. Patil College of Pharmacy, Kolhapur.
 
PPTX
Industrial production, estimation and utilization of the following phytoconst...
byD. Y. Patil College of Pharmacy, Kolhapur.
 
Multiple Myeloma , definition, etiology, PP, CM , DE and management
byNisha Borsa
 
Multiple Linear Regression - Least Square Method X₁ on X₂ and X₃
bySundar B N
 
Partial Correlation - Values of r₁₂.₃, r₂₃.₁ & r₁₃.₂ r₁₂, r₁₃ and r₂₃
bySundar B N
 
Comprehensive Principles, Design Techniques, and Applications of Electronic O...
byGS Virdi
 
4 G8_Q3_L4 (Evaluating opinion editorials for textual evidence and quality).pptx
byNorafeSahagun
 
The voice of the rain poem class 11th.pdf
byReeta Baral
 
Expected Revenue Report In Odoo 18 CRM
byCeline George
 
How to Access Revenue Report in Odoo 18 Events
byCeline George
 
Blood Group Incompatibility: Rh Factor and Erythroblastosis Fetalis
bySudhandraKarthi
 
Access partner report in Odoo 18.2 _ Odoo 19
byCeline George
 
M.Sc. Nonchordates Complete Syllabus PPT | All Important Topics Covered
byKNIPSS SULTANPUR
 
GROWTH & DEVELOPMENT MILESTONES (INFANTS).pptx
byAneetaSharma15
 
Types of eggs and Egg membranes (Developmental Zoology)
bySudhandraKarthi
 
SIHMA Scalabrini Institute for Human Mobility in Africa(SIHMA) - Annual Repor...
byScalabrini Institute for Human Mobility in Africa
 
cis.jackson.alaysia.ResearchPresentation 1.Microsoft Teams vs Zoom vs Webex v...
byMerritt College
 
Cultivating Greatness Pune's Best Preschools and Schools.pdf
byWellington College
 
Brahma_Muhurta_Presentation Ayurvedic Perspective
bySudha Sumathy
 
Environmental Studies Module 1 BBA,BCCA Sem 1 NEP.pdf
byJayanti Pande
 
Isolation, Identification and Analysis of phytoconstituents.
byD. Y. Patil College of Pharmacy, Kolhapur.
 
Industrial production, estimation and utilization of the following phytoconst...
byD. Y. Patil College of Pharmacy, Kolhapur.
 

1 1 number theory

  • 1.
    Unit 1 Functionsand Relations 1-1 Number Theory Number Systems Rational and Irrational Numbers 1-2 Functions and Linear Graphs Functions and Function Notation 1-1 and Onto Graphing 1-3 Equations and Inequalities Solving Linear and Quadratic Equations and Inequalities Solving for a Variable
  • 2.
    1-1 Number TheoryUnit 1 Functions and Relations
  • 3.
    Concepts and ObjectivesNumber Theory (Obj. #1) Identify subsets of real numbers Simplify expressions using order of operations Identify real number axioms Rational Numbers (Obj. #2) Convert between fractions and decimals
  • 4.
    Number Systems Whatwe currently know as the set of real numbers was only formulated around 1879. We usually present this as sets of numbers.
  • 5.
    Number Systems Theset of natural numbers (  ) and the set of integers (  ) have been around since ancient times, probably prompted by the need to maintain trade accounts. Ancient civilizations, such as the Babylonians, also used ratios to compare quantities. One of the greatest mathematical advances was the introduction of the number 0.
  • 6.
    Properties of RealNumbers Closure Property a + b   ab   Commutative Property a + b = b + a ab = ba Associative Property ( a + b ) + c = a + ( b + c ) ( ab ) c = a ( bc ) Identity Property a + 0 = a a  1 = a Inverse Property a + (– a ) = 0 Distributive Property a ( b + c ) = ab + ac For all real numbers a , b , and c :
  • 7.
    Properties of RealNumbers The properties are also called axioms . 0 is called the additive identity and 1 is called the multiplicative identity . Notice the relationships between the identities and the inverses (called the additive inverse and the multiplicative inverse ). Saying that a set is “closed” under an operation (such as multiplication) means that performing that operation on numbers in the set will always produce an answer that is also in the set – there are no answers outside the set.
  • 8.
    Properties of RealNumbers Examples The set of natural numbers (  ) is not closed under the operation of subtraction. Why? – 20  5 = –4. Does this show that the set of integers is closed under division?
  • 9.
    Properties of RealNumbers Examples The set of natural numbers (  ) is not closed under the operation of subtraction. Why? 5 – 7 = –2, which is not in  . – 20  5 = –4. Does this show that the set of integers is closed under division? No. Any division that has a remainder is not in  .
  • 10.
    Order of OperationsParentheses (or other grouping symbols, such as square brackets or fraction bars) – start with the innermost set, following the sequence below, and work outward. Exponents Multiplication Division Addition Subtraction working from left to right working from left to right
  • 11.
    Order of OperationsUse order of operations to explain why We can think of –3 as being –1  3. Therefore we have It should be easier now to see that on the left side we multiply first and then apply the exponent, and on the right side, we apply the exponent and then multiply.
  • 12.
    Order of OperationsWork the following examples without using your calculator.
  • 13.
    Order of OperationsWork the following examples without using your calculator. 1. –6 2. –60
  • 14.
    Absolute Value The absolute value of a real number a , denoted by | a |, is the distance from 0 to a on the number line. This distance is always taken to be nonnegative.
  • 15.
    Absolute Value PropertiesFor all real numbers a and b :
  • 16.
    Absolute Value Example: Rewrite each expression without absolute value bars.
  • 17.
    Absolute Value Example: Rewrite each expression without absolute value bars. 2.  – 2 3. –1
  • 18.
    Rational Numbers TheGreeks, specifically Pythagoras of Samos, originally believed that the lengths of all segments in geometric objects could be expressed as ratios of positive integers. A number is a rational number (  ) if and only if it can be expressed as the ratio (or quotient) of two integers. Rational numbers include decimals as well as fractions. The definition does not require that a rational number must be written as a quotient of two integers, only that it can be.
  • 19.
    Examples Example: Prove that the following numbers are rational numbers by expressing them as ratios of integers. 1. 2 -4 4. 2. 64 -½ 5. 3. 6. –5.4322986
  • 20.
    Examples Example: Prove that the following numbers are rational numbers by expressing them as ratios of integers. 1. 2 -4 4. 2. 64 -½ 5. 3. 6. –5.4322986 4
  • 21.
    Irrational Numbers Unfortunately,the Pythagoreans themselves later discovered that the side of a square and its diagonal could not be expressed as a ratio of integers. Prove is irrational. Proof (by contradiction): Assume is rational. This means that there exist relatively prime integers a and b such that
  • 22.
    Irrational Numbers Thismeans there is an integer j such that 2 j=a . If a and b are both even, then they are not relatively prime. This is a contradiction. Therefore, is irrational. Theorem: Let n be a positive integer. Then is either an integer or it is irrational.
  • 23.
    Real Numbers Thenumber line is a geometric model of the system of real numbers. Rational numbers are thus fairly easy to represent: What about irrational numbers? Consider the following:  (1,1)
  • 24.
    Real Numbers Inthis way, if an irrational number can be identified with a length, we can find a point on the number line corresponding to it. What this emphasizes is that the number line is continuous —there are no gaps.
  • 25.
    Intervals b ab a b a b a b a b a b a b a b a b a b a b a Name of Interval Notation Inequality Description Number Line Representation finite, open ( a , b ) a < x < b finite, closed [ a , b ] a  x  b finite, half-open ( a , b ] [ a , b ) a < x  b a  x < b infinite, open ( a ,  ) (-  , b ) a < x <  -  < x < b infinite, closed [ a ,  ) [-  , b ] a  x <  -  < x  b
  • 26.
    Finite and RepeatingDecimals If a nonnegative real number x can be expressed as a finite sum of of the form where D and each d n are nonnegative integers and 0  d n  9 for n = 1, 2, …, t , then D . d 1 d 2 … d t is the finite decimal representing x .
  • 27.
    Finite and RepeatingDecimals If the decimal representation of a rational number does not terminate, then the decimal is periodic (or repeating ). The repeating string of numbers is called the period of the decimal. It turns out that for a rational number where b > 0, the period is at most b – 1.
  • 28.
    Finite and RepeatingDecimals Example: Use long division (yes, long division) to find the decimal representation of and find its period. What is the period of this decimal?
  • 29.
    Finite and RepeatingDecimals Example: Use long division (yes, long division) to find the decimal representation of and find its period. What is the period of this decimal? 6
  • 30.
    Finite and RepeatingDecimals The repeating portion of a decimal does not necessarily start right after the decimal point. A decimal which starts repeating after the decimal point is called a simple-periodic decimal; one which starts later is called a delayed-periodic decimal. Type of Decimal Examples General Form terminating 0.5, 0.25, 0.2, 0.125, 0.0625 simple-periodic delayed-periodic
  • 31.
    Decimal Representation Ifwe know the fraction, it’s fairly straightforward (although sometimes tedious) to find its decimal representation. What about going the other direction? How do we find the fraction from the decimal, especially if it repeats? We’ve already seen how to represent a terminating decimal as the sum of powers of ten. More generally, we can state that the decimal 0. d 1 d 2 d 3 … d t can be written as , where M is the integer d 1 d 2 d 3 … d t .
  • 32.
    Decimal Representation Forsimple-periodic decimals, the “trick” is to turn them into fractions with the same number of 9s in the denominator as there are repeating digits and simplify: To put this more generally, the decimal can be written as the fraction , where M is the integer d 1 d 2 d 3 … d p .
  • 33.
    Decimal Representation Fordelayed-periodic decimals, the process is a little more complicated. Consider the following: What is the decimal representation of ? is the product of what two fractions? Notice that the decimal representation has characteristics of each factor.
  • 34.
    Decimal Representation Itturns out you can break a delayed-periodic decimal into a product of terminating and simple-periodic decimals, so the general form is also a product of the general forms: The decimal can be written as the fraction , where N is the integer d 1 d 2 d 3 … d t d t +1 d t +2 d t +3 … d t + p – d 1 d 2 d 3 … d t .
  • 35.
    Decimal Representation Example: Convert the decimal to a fraction.
  • 36.
    Decimal Representation Example: Convert the decimal to a fraction. It’s possible this might reduce, but we can see that there are no obvious common factors (2, 3, 4, 5, 6, 8, 9, or 10), so it’s okay to leave it like this.