SlideShare una empresa de Scribd logo

Limit of a Function

Matthew Leingang
Matthew Leingang

Limits are where algebra ends and calculus begins.

Educación
1 de 54
Descargar para leer sin conexión
Section 1.3 The Limit of a Function V63.0121, Calculus I January 26–27, 2009 Announcements Office Hours: MW 1:30–3:00, TR 1:00–2:00 (WWH 718) Blackboard operational HW due Wednesday, ALEKS initial due Friday
Limit
Zeno’s Paradox That which is in locomotion must arrive at the half-way stage before it arrives at the goal. (Aristotle Physics VI:9, 239b10)
Outline The Concept of Limit Heuristics Errors and tolerances Examples Pathologies
Heuristic Definition of a Limit Definition We write lim f (x) = L x→a and say “the limit of f (x), as x approaches a, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) but not equal to a.
The error-tolerance game A game between two players to decide if a limit lim f (x) exists. x→a Player 1: Choose L to be the limit. Player 2: Propose an “error” level around L. Player 1: Choose a “tolerance” level around a so that x-points within that tolerance level are taken to y -values within the error level. If Player 1 can always win, lim f (x) = L. x→a
The error-tolerance game L a
The error-tolerance game L a
The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game This tolerance is too big L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game Still too big L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game This looks good L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game So does this L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip. If Player 2 shrinks the error, Player 1 can still win.
The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip. If Player 2 shrinks the error, Player 1 can still win.
Example Find lim x 2 if it exists. x→0
Example Find lim x 2 if it exists. x→0 Solution By setting tolerance equal to the square root of the error, we can guarantee to be within any error.
Example |x| Find lim if it exists. x→0 x
Example |x| Find lim if it exists. x→0 x Solution The function can also be written as |x| 1 if x > 0; = x −1 if x < 0 What would be the limit?
The error-tolerance game y 1 x −1
The error-tolerance game y 1 x −1
The error-tolerance game y 1 x −1
The error-tolerance game y 1 x −1
The error-tolerance game y 1 x Part of graph in- −1 side blue is not inside green
The error-tolerance game y 1 x −1
The error-tolerance game y 1 x −1
The error-tolerance game y Part of graph in- side blue is not 1 inside green x −1
The error-tolerance game y Part of graph in- side blue is not 1 inside green x −1 These are the only good choices; the limit does not exist.
One-sided limits Definition We write lim f (x) = L x→a+ and say “the limit of f (x), as x approaches a from the right, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) and greater than a.
One-sided limits Definition We write lim f (x) = L x→a− and say “the limit of f (x), as x approaches a from the left, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) and less than a.
Example |x| Find lim if it exists. x→0 x Solution The function can also be written as |x| 1 if x > 0; = x −1 if x < 0 What would be the limit? The error-tolerance game fails, but lim f (x) = −1 lim f (x) = 1 x→0− x→0+
Example 1 Find lim+ if it exists. x x→0
The error-tolerance game y L? x 0
The error-tolerance game y L? x 0
The error-tolerance game y L? x 0
The error-tolerance game y The graph escapes the green, so no good L? x 0
The error-tolerance game y L? x 0
The error-tolerance game y Even worse! L? x 0
The error-tolerance game y The limit does not exist because the function is unbounded near 0 L? x 0
Example 1 Find lim+ if it exists. x x→0 Solution The limit does not exist because the function is unbounded near 0. Next week we will understand the statement that 1 lim+ = +∞ x x→0
Example π Find lim sin if it exists. x x→0
y 1 x −1
What could go wrong? How could a function fail to have a limit? Some possibilities: left- and right- hand limits exist but are not equal The function is unbounded near a Oscillation with increasingly high frequency near a
Meet the Mathematician: Augustin Louis Cauchy French, 1789–1857 Royalist and Catholic made contributions in geometry, calculus, complex analysis, number theory created the definition of limit we use today but didn’t understand it
Precise Definition of a Limit Let f be a function defined on an some open interval that contains the number a, except possibly at a itself. Then we say that the limit of f (x) as x approaches a is L, and we write lim f (x) = L, x→a if for every ε > 0 there is a corresponding δ > 0 such that if 0 < |x − a| < δ, then |f (x) − L| < ε.
The error-tolerance game = ε, δ L a
The error-tolerance game = ε, δ L+ε L L−ε a
The error-tolerance game = ε, δ L+ε L L−ε a − δaa + δ
The error-tolerance game = ε, δ This δ is too big L+ε L L−ε a − δaa + δ
The error-tolerance game = ε, δ L+ε L L−ε a −aδ δ a+
The error-tolerance game = ε, δ This δ looks good L+ε L L−ε a −aδ δ a+
The error-tolerance game = ε, δ So does this δ L+ε L L−ε aa a δ δ − +

Recomendados

Lesson 7: Limits at Infinity
Lesson 7: Limits at InfinityLesson 7: Limits at Infinity
Lesson 7: Limits at InfinityMatthew Leingang
 
Limits of a Function
Limits of a FunctionLimits of a Function
Limits of a FunctionJesusDel2
 
Limit of functions
Limit of functionsLimit of functions
Limit of functionsJuan Apolinario Reyes
 
Limits and continuity powerpoint
Limits and continuity powerpointLimits and continuity powerpoint
Limits and continuity powerpointcanalculus
 
Math presentation on domain and range
Math presentation on domain and rangeMath presentation on domain and range
Math presentation on domain and rangeTouhidul Shawan
 
Inverse functions
Inverse functionsInverse functions
Inverse functionsJessica Garcia
 
Basic Calculus 11 - Derivatives and Differentiation Rules
Basic Calculus 11 - Derivatives and Differentiation RulesBasic Calculus 11 - Derivatives and Differentiation Rules
Basic Calculus 11 - Derivatives and Differentiation RulesJuan Miguel Palero
 
Limits, Continuity & Differentiation (Theory)
Limits, Continuity & Differentiation (Theory)Limits, Continuity & Differentiation (Theory)
Limits, Continuity & Differentiation (Theory)Eduron e-Learning Private Limited
 

Recomendados

Lesson 7: Limits at Infinity
Lesson 7: Limits at InfinityLesson 7: Limits at Infinity
Lesson 7: Limits at InfinityMatthew Leingang
 
Limits of a Function
Limits of a FunctionLimits of a Function
Limits of a FunctionJesusDel2
 
Limit of functions
Limit of functionsLimit of functions
Limit of functionsJuan Apolinario Reyes
 
Limits and continuity powerpoint
Limits and continuity powerpointLimits and continuity powerpoint
Limits and continuity powerpointcanalculus
 
Math presentation on domain and range
Math presentation on domain and rangeMath presentation on domain and range
Math presentation on domain and rangeTouhidul Shawan
 
Inverse functions
Inverse functionsInverse functions
Inverse functionsJessica Garcia
 
Basic Calculus 11 - Derivatives and Differentiation Rules
Basic Calculus 11 - Derivatives and Differentiation RulesBasic Calculus 11 - Derivatives and Differentiation Rules
Basic Calculus 11 - Derivatives and Differentiation RulesJuan Miguel Palero
 
Limits, Continuity & Differentiation (Theory)
Limits, Continuity & Differentiation (Theory)Limits, Continuity & Differentiation (Theory)
Limits, Continuity & Differentiation (Theory)Eduron e-Learning Private Limited
 
Lecture 4 the limit of a function
Lecture 4 the limit of a functionLecture 4 the limit of a function
Lecture 4 the limit of a functionnjit-ronbrown
 
Limits
LimitsLimits
Limitsadmercano101
 
Exponential and logarithmic functions
Exponential and logarithmic functionsExponential and logarithmic functions
Exponential and logarithmic functionsNjabulo Nkabinde
 
3.1 derivative of a function
3.1 derivative of a function3.1 derivative of a function
3.1 derivative of a functionbtmathematics
 
Composite functions
Composite functionsComposite functions
Composite functionsJessica Garcia
 
Lesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic FunctionsLesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic FunctionsMatthew Leingang
 
Lesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit LawsLesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit LawsMatthew Leingang
 
Composition and inverse of functions
Composition and inverse of functionsComposition and inverse of functions
Composition and inverse of functionsCharliez Jane Soriano
 
Lesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functionsLesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functionsRnold Wilson
 
Limit of Function And Its Types
Limit of Function And Its TypesLimit of Function And Its Types
Limit of Function And Its TypesAdeel Rasheed
 
Piecewise Functions
Piecewise FunctionsPiecewise Functions
Piecewise Functionsswartzje
 
Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Matthew Leingang
 
The chain rule
The chain ruleThe chain rule
The chain ruleJ M
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functionssjwong
 
Inverse function
Inverse functionInverse function
Inverse functionMehedi Hasan Raju
 
7 functions
7 functions7 functions
7 functionsKathManarang
 
Inverse Functions
Inverse FunctionsInverse Functions
Inverse FunctionsJerri Harbison
 
Lesson 11: Limits and Continuity
Lesson 11: Limits and ContinuityLesson 11: Limits and Continuity
Lesson 11: Limits and ContinuityMatthew Leingang
 
Derivatives
DerivativesDerivatives
DerivativesNisarg Amin
 
PPt on Functions
PPt on FunctionsPPt on Functions
PPt on Functionscoolhanddav
 
Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Mel Anthony Pepito
 
Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Matthew Leingang
 

Más contenido relacionado

La actualidad más candente

Lecture 4 the limit of a function
Lecture 4 the limit of a functionLecture 4 the limit of a function
Lecture 4 the limit of a functionnjit-ronbrown
 
Exponential and logarithmic functions
Exponential and logarithmic functionsExponential and logarithmic functions
Exponential and logarithmic functionsNjabulo Nkabinde
 
3.1 derivative of a function
3.1 derivative of a function3.1 derivative of a function
3.1 derivative of a functionbtmathematics
 
Lesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic FunctionsLesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic FunctionsMatthew Leingang
 
Lesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit LawsLesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit LawsMatthew Leingang
 
Composition and inverse of functions
Composition and inverse of functionsComposition and inverse of functions
Composition and inverse of functionsCharliez Jane Soriano
 
Lesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functionsLesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functionsRnold Wilson
 
Limit of Function And Its Types
Limit of Function And Its TypesLimit of Function And Its Types
Limit of Function And Its TypesAdeel Rasheed
 
Piecewise Functions
Piecewise FunctionsPiecewise Functions
Piecewise Functionsswartzje
 
Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Matthew Leingang
 
The chain rule
The chain ruleThe chain rule
The chain ruleJ M
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functionssjwong
 
Lesson 11: Limits and Continuity
Lesson 11: Limits and ContinuityLesson 11: Limits and Continuity
Lesson 11: Limits and ContinuityMatthew Leingang
 
PPt on Functions
PPt on FunctionsPPt on Functions
PPt on Functionscoolhanddav
 

La actualidad más candente (20)

Lecture 4 the limit of a function
Lecture 4 the limit of a functionLecture 4 the limit of a function
Lecture 4 the limit of a function
 
Limits
LimitsLimits
Limits
 
Exponential and logarithmic functions
Exponential and logarithmic functionsExponential and logarithmic functions
Exponential and logarithmic functions
 
3.1 derivative of a function
3.1 derivative of a function3.1 derivative of a function
3.1 derivative of a function
 
Composite functions
Composite functionsComposite functions
Composite functions
 
Lesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic FunctionsLesson 16: Derivatives of Exponential and Logarithmic Functions
Lesson 16: Derivatives of Exponential and Logarithmic Functions
 
Lesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit LawsLesson 2: Limits and Limit Laws
Lesson 2: Limits and Limit Laws
 
Composition and inverse of functions
Composition and inverse of functionsComposition and inverse of functions
Composition and inverse of functions
 
Lesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functionsLesson 12 derivative of inverse trigonometric functions
Lesson 12 derivative of inverse trigonometric functions
 
Limit of Function And Its Types
Limit of Function And Its TypesLimit of Function And Its Types
Limit of Function And Its Types
 
Piecewise Functions
Piecewise FunctionsPiecewise Functions
Piecewise Functions
 
Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)
 
The chain rule
The chain ruleThe chain rule
The chain rule
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functions
 
Inverse function
Inverse functionInverse function
Inverse function
 
7 functions
7 functions7 functions
7 functions
 
Inverse Functions
Inverse FunctionsInverse Functions
Inverse Functions
 
Lesson 11: Limits and Continuity
Lesson 11: Limits and ContinuityLesson 11: Limits and Continuity
Lesson 11: Limits and Continuity
 
Derivatives
DerivativesDerivatives
Derivatives
 
PPt on Functions
PPt on FunctionsPPt on Functions
PPt on Functions
 

Similar a Limit of a Function

Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Mel Anthony Pepito
 
Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Matthew Leingang
 
Lesson 3: The limit of a function
Lesson 3: The limit of a functionLesson 3: The limit of a function
Lesson 3: The limit of a functionMatthew Leingang
 
Lesson 3: The Concept of Limit
Lesson 3: The Concept of LimitLesson 3: The Concept of Limit
Lesson 3: The Concept of LimitMatthew Leingang
 
Lesson 6: Limits Involving ∞
Lesson 6: Limits Involving ∞Lesson 6: Limits Involving ∞
Lesson 6: Limits Involving ∞Matthew Leingang
 
Lesson 4: Calculating Limits
Lesson 4: Calculating LimitsLesson 4: Calculating Limits
Lesson 4: Calculating LimitsMatthew Leingang
 
Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Matthew Leingang
 
Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Mel Anthony Pepito
 
Lesson 25: Indeterminate Forms and L'Hôpital's Rule
Lesson 25: Indeterminate Forms and L'Hôpital's RuleLesson 25: Indeterminate Forms and L'Hôpital's Rule
Lesson 25: Indeterminate Forms and L'Hôpital's RuleMatthew Leingang
 
Lesson 4: Calculating Limits (slides)
Lesson 4: Calculating Limits (slides)Lesson 4: Calculating Limits (slides)
Lesson 4: Calculating Limits (slides)Mel Anthony Pepito
 
Lesson 4: Calcuating Limits (slides)
Lesson 4: Calcuating Limits (slides)Lesson 4: Calcuating Limits (slides)
Lesson 4: Calcuating Limits (slides)Matthew Leingang
 
Lesson 4: Calculating Limits
Lesson 4: Calculating LimitsLesson 4: Calculating Limits
Lesson 4: Calculating LimitsMatthew Leingang
 
Calculus Cheat Sheet All
Calculus Cheat Sheet AllCalculus Cheat Sheet All
Calculus Cheat Sheet AllMoe Han
 
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Matthew Leingang
 
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Mel Anthony Pepito
 
Lessons 1–3: Functions and the concept of limit
Lessons 1–3: Functions and the concept of limitLessons 1–3: Functions and the concept of limit
Lessons 1–3: Functions and the concept of limitMatthew Leingang
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Matthew Leingang
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Mel Anthony Pepito
 

Similar a Limit of a Function (20)

Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)
 
Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)Lesson 3: The Limit of a Function (slides)
Lesson 3: The Limit of a Function (slides)
 
Lesson 3: The limit of a function
Lesson 3: The limit of a functionLesson 3: The limit of a function
Lesson 3: The limit of a function
 
Lesson 3: The Concept of Limit
Lesson 3: The Concept of LimitLesson 3: The Concept of Limit
Lesson 3: The Concept of Limit
 
Lesson 6: Limits Involving ∞
Lesson 6: Limits Involving ∞Lesson 6: Limits Involving ∞
Lesson 6: Limits Involving ∞
 
Lesson 4: Calculating Limits
Lesson 4: Calculating LimitsLesson 4: Calculating Limits
Lesson 4: Calculating Limits
 
Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)
 
Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)Lesson 6: Limits Involving Infinity (slides)
Lesson 6: Limits Involving Infinity (slides)
 
Lesson 25: Indeterminate Forms and L'Hôpital's Rule
Lesson 25: Indeterminate Forms and L'Hôpital's RuleLesson 25: Indeterminate Forms and L'Hôpital's Rule
Lesson 25: Indeterminate Forms and L'Hôpital's Rule
 
Lesson 4: Calculating Limits (slides)
Lesson 4: Calculating Limits (slides)Lesson 4: Calculating Limits (slides)
Lesson 4: Calculating Limits (slides)
 
Lesson 4: Calcuating Limits (slides)
Lesson 4: Calcuating Limits (slides)Lesson 4: Calcuating Limits (slides)
Lesson 4: Calcuating Limits (slides)
 
Midterm I Review
Midterm I ReviewMidterm I Review
Midterm I Review
 
Lesson 4: Calculating Limits
Lesson 4: Calculating LimitsLesson 4: Calculating Limits
Lesson 4: Calculating Limits
 
Calculus Cheat Sheet All
Calculus Cheat Sheet AllCalculus Cheat Sheet All
Calculus Cheat Sheet All
 
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
 
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
Lesson 17: Indeterminate forms and l'Hôpital's Rule (slides)
 
Lessons 1–3: Functions and the concept of limit
Lessons 1–3: Functions and the concept of limitLessons 1–3: Functions and the concept of limit
Lessons 1–3: Functions and the concept of limit
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
Lesson 14: Derivatives of Logarithmic and Exponential Functions (slides)
 
Lesson 5: Continuity
Lesson 5: ContinuityLesson 5: Continuity
Lesson 5: Continuity
 

Más de Matthew Leingang

Streamlining assessment, feedback, and archival with auto-multiple-choice
Streamlining assessment, feedback, and archival with auto-multiple-choiceStreamlining assessment, feedback, and archival with auto-multiple-choice
Streamlining assessment, feedback, and archival with auto-multiple-choiceMatthew Leingang
 
Electronic Grading of Paper Assessments
Electronic Grading of Paper AssessmentsElectronic Grading of Paper Assessments
Electronic Grading of Paper AssessmentsMatthew Leingang
 
Lesson 27: Integration by Substitution (slides)
Lesson 27: Integration by Substitution (slides)Lesson 27: Integration by Substitution (slides)
Lesson 27: Integration by Substitution (slides)Matthew Leingang
 
Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Matthew Leingang
 
Lesson 27: Integration by Substitution (handout)
Lesson 27: Integration by Substitution (handout)Lesson 27: Integration by Substitution (handout)
Lesson 27: Integration by Substitution (handout)Matthew Leingang
 
Lesson 26: The Fundamental Theorem of Calculus (handout)
Lesson 26: The Fundamental Theorem of Calculus (handout)Lesson 26: The Fundamental Theorem of Calculus (handout)
Lesson 26: The Fundamental Theorem of Calculus (handout)Matthew Leingang
 
Lesson 25: Evaluating Definite Integrals (slides)
Lesson 25: Evaluating Definite Integrals (slides)Lesson 25: Evaluating Definite Integrals (slides)
Lesson 25: Evaluating Definite Integrals (slides)Matthew Leingang
 
Lesson 25: Evaluating Definite Integrals (handout)
Lesson 25: Evaluating Definite Integrals (handout)Lesson 25: Evaluating Definite Integrals (handout)
Lesson 25: Evaluating Definite Integrals (handout)Matthew Leingang
 
Lesson 24: Areas and Distances, The Definite Integral (handout)
Lesson 24: Areas and Distances, The Definite Integral (handout)Lesson 24: Areas and Distances, The Definite Integral (handout)
Lesson 24: Areas and Distances, The Definite Integral (handout)Matthew Leingang
 
Lesson 24: Areas and Distances, The Definite Integral (slides)
Lesson 24: Areas and Distances, The Definite Integral (slides)Lesson 24: Areas and Distances, The Definite Integral (slides)
Lesson 24: Areas and Distances, The Definite Integral (slides)Matthew Leingang
 
Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Matthew Leingang
 
Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Matthew Leingang
 
Lesson 22: Optimization Problems (slides)
Lesson 22: Optimization Problems (slides)Lesson 22: Optimization Problems (slides)
Lesson 22: Optimization Problems (slides)Matthew Leingang
 
Lesson 22: Optimization Problems (handout)
Lesson 22: Optimization Problems (handout)Lesson 22: Optimization Problems (handout)
Lesson 22: Optimization Problems (handout)Matthew Leingang
 
Lesson 21: Curve Sketching (slides)
Lesson 21: Curve Sketching (slides)Lesson 21: Curve Sketching (slides)
Lesson 21: Curve Sketching (slides)Matthew Leingang
 
Lesson 21: Curve Sketching (handout)
Lesson 21: Curve Sketching (handout)Lesson 21: Curve Sketching (handout)
Lesson 21: Curve Sketching (handout)Matthew Leingang
 
Lesson 20: Derivatives and the Shapes of Curves (slides)
Lesson 20: Derivatives and the Shapes of Curves (slides)Lesson 20: Derivatives and the Shapes of Curves (slides)
Lesson 20: Derivatives and the Shapes of Curves (slides)Matthew Leingang
 
Lesson 20: Derivatives and the Shapes of Curves (handout)
Lesson 20: Derivatives and the Shapes of Curves (handout)Lesson 20: Derivatives and the Shapes of Curves (handout)
Lesson 20: Derivatives and the Shapes of Curves (handout)Matthew Leingang
 
Lesson 19: The Mean Value Theorem (slides)
Lesson 19: The Mean Value Theorem (slides)Lesson 19: The Mean Value Theorem (slides)
Lesson 19: The Mean Value Theorem (slides)Matthew Leingang
 

Más de Matthew Leingang (20)

Making Lesson Plans
Making Lesson PlansMaking Lesson Plans
Making Lesson Plans
 
Streamlining assessment, feedback, and archival with auto-multiple-choice
Streamlining assessment, feedback, and archival with auto-multiple-choiceStreamlining assessment, feedback, and archival with auto-multiple-choice
Streamlining assessment, feedback, and archival with auto-multiple-choice
 
Electronic Grading of Paper Assessments
Electronic Grading of Paper AssessmentsElectronic Grading of Paper Assessments
Electronic Grading of Paper Assessments
 
Lesson 27: Integration by Substitution (slides)
Lesson 27: Integration by Substitution (slides)Lesson 27: Integration by Substitution (slides)
Lesson 27: Integration by Substitution (slides)
 
Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)Lesson 26: The Fundamental Theorem of Calculus (slides)
Lesson 26: The Fundamental Theorem of Calculus (slides)
 
Lesson 27: Integration by Substitution (handout)
Lesson 27: Integration by Substitution (handout)Lesson 27: Integration by Substitution (handout)
Lesson 27: Integration by Substitution (handout)
 
Lesson 26: The Fundamental Theorem of Calculus (handout)
Lesson 26: The Fundamental Theorem of Calculus (handout)Lesson 26: The Fundamental Theorem of Calculus (handout)
Lesson 26: The Fundamental Theorem of Calculus (handout)
 
Lesson 25: Evaluating Definite Integrals (slides)
Lesson 25: Evaluating Definite Integrals (slides)Lesson 25: Evaluating Definite Integrals (slides)
Lesson 25: Evaluating Definite Integrals (slides)
 
Lesson 25: Evaluating Definite Integrals (handout)
Lesson 25: Evaluating Definite Integrals (handout)Lesson 25: Evaluating Definite Integrals (handout)
Lesson 25: Evaluating Definite Integrals (handout)
 
Lesson 24: Areas and Distances, The Definite Integral (handout)
Lesson 24: Areas and Distances, The Definite Integral (handout)Lesson 24: Areas and Distances, The Definite Integral (handout)
Lesson 24: Areas and Distances, The Definite Integral (handout)
 
Lesson 24: Areas and Distances, The Definite Integral (slides)
Lesson 24: Areas and Distances, The Definite Integral (slides)Lesson 24: Areas and Distances, The Definite Integral (slides)
Lesson 24: Areas and Distances, The Definite Integral (slides)
 
Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)
 
Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)Lesson 23: Antiderivatives (slides)
Lesson 23: Antiderivatives (slides)
 
Lesson 22: Optimization Problems (slides)
Lesson 22: Optimization Problems (slides)Lesson 22: Optimization Problems (slides)
Lesson 22: Optimization Problems (slides)
 
Lesson 22: Optimization Problems (handout)
Lesson 22: Optimization Problems (handout)Lesson 22: Optimization Problems (handout)
Lesson 22: Optimization Problems (handout)
 
Lesson 21: Curve Sketching (slides)
Lesson 21: Curve Sketching (slides)Lesson 21: Curve Sketching (slides)
Lesson 21: Curve Sketching (slides)
 
Lesson 21: Curve Sketching (handout)
Lesson 21: Curve Sketching (handout)Lesson 21: Curve Sketching (handout)
Lesson 21: Curve Sketching (handout)
 
Lesson 20: Derivatives and the Shapes of Curves (slides)
Lesson 20: Derivatives and the Shapes of Curves (slides)Lesson 20: Derivatives and the Shapes of Curves (slides)
Lesson 20: Derivatives and the Shapes of Curves (slides)
 
Lesson 20: Derivatives and the Shapes of Curves (handout)
Lesson 20: Derivatives and the Shapes of Curves (handout)Lesson 20: Derivatives and the Shapes of Curves (handout)
Lesson 20: Derivatives and the Shapes of Curves (handout)
 
Lesson 19: The Mean Value Theorem (slides)
Lesson 19: The Mean Value Theorem (slides)Lesson 19: The Mean Value Theorem (slides)
Lesson 19: The Mean Value Theorem (slides)
 

Último

4.16.24 Poverty and Precarity--Desmond.pptx
4.16.24 Poverty and Precarity--Desmond.pptx4.16.24 Poverty and Precarity--Desmond.pptx
4.16.24 Poverty and Precarity--Desmond.pptxmary850239
 
Using Grammatical Signals Suitable to Patterns of Idea Development
Using Grammatical Signals Suitable to Patterns of Idea DevelopmentUsing Grammatical Signals Suitable to Patterns of Idea Development
Using Grammatical Signals Suitable to Patterns of Idea Developmentchesterberbo7
 
Scientific Writing :Research Discourse
Scientific Writing :Research DiscourseScientific Writing :Research Discourse
Scientific Writing :Research DiscourseAnita GoswamiGiri
 
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...Team Lead Succeed – Helping you and your team achieve high-performance teamwo...
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...Association for Project Management
 
Measures of Position DECILES for ungrouped data
Measures of Position DECILES for ungrouped dataMeasures of Position DECILES for ungrouped data
Measures of Position DECILES for ungrouped dataBabyAnnMotar
 
week 1 cookery 8 fourth - quarter .pptx
week 1 cookery 8 fourth - quarter .pptxweek 1 cookery 8 fourth - quarter .pptx
week 1 cookery 8 fourth - quarter .pptxJonalynLegaspi2
 
Daily Lesson Plan in Mathematics Quarter 4
Daily Lesson Plan in Mathematics Quarter 4Daily Lesson Plan in Mathematics Quarter 4
Daily Lesson Plan in Mathematics Quarter 4JOYLYNSAMANIEGO
 
Textual Evidence in Reading and Writing of SHS
Textual Evidence in Reading and Writing of SHSTextual Evidence in Reading and Writing of SHS
Textual Evidence in Reading and Writing of SHSMae Pangan
 
ROLES IN A STAGE PRODUCTION in arts.pptx
ROLES IN A STAGE PRODUCTION in arts.pptxROLES IN A STAGE PRODUCTION in arts.pptx
ROLES IN A STAGE PRODUCTION in arts.pptxVanesaIglesias10
 
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)lakshayb543
 
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptx
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptxDIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptx
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptxMichelleTuguinay1
 
Multi Domain Alias In the Odoo 17 ERP Module
Multi Domain Alias In the Odoo 17 ERP ModuleMulti Domain Alias In the Odoo 17 ERP Module
Multi Domain Alias In the Odoo 17 ERP ModuleCeline George
 
Transaction Management in Database Management System
Transaction Management in Database Management SystemTransaction Management in Database Management System
Transaction Management in Database Management SystemChristalin Nelson
 
Mental Health Awareness - a toolkit for supporting young minds
Mental Health Awareness - a toolkit for supporting young mindsMental Health Awareness - a toolkit for supporting young minds
Mental Health Awareness - a toolkit for supporting young mindsPooky Knightsmith
 
How to Make a Duplicate of Your Odoo 17 Database
How to Make a Duplicate of Your Odoo 17 DatabaseHow to Make a Duplicate of Your Odoo 17 Database
How to Make a Duplicate of Your Odoo 17 DatabaseCeline George
 
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptx
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptxBIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptx
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptxSayali Powar
 
4.16.24 21st Century Movements for Black Lives.pptx
4.16.24 21st Century Movements for Black Lives.pptx4.16.24 21st Century Movements for Black Lives.pptx
4.16.24 21st Century Movements for Black Lives.pptxmary850239
 

Último (20)

4.16.24 Poverty and Precarity--Desmond.pptx
4.16.24 Poverty and Precarity--Desmond.pptx4.16.24 Poverty and Precarity--Desmond.pptx
4.16.24 Poverty and Precarity--Desmond.pptx
 
Using Grammatical Signals Suitable to Patterns of Idea Development
Using Grammatical Signals Suitable to Patterns of Idea DevelopmentUsing Grammatical Signals Suitable to Patterns of Idea Development
Using Grammatical Signals Suitable to Patterns of Idea Development
 
INCLUSIVE EDUCATION PRACTICES FOR TEACHERS AND TRAINERS.pptx
INCLUSIVE EDUCATION PRACTICES FOR TEACHERS AND TRAINERS.pptxINCLUSIVE EDUCATION PRACTICES FOR TEACHERS AND TRAINERS.pptx
INCLUSIVE EDUCATION PRACTICES FOR TEACHERS AND TRAINERS.pptx
 
Scientific Writing :Research Discourse
Scientific Writing :Research DiscourseScientific Writing :Research Discourse
Scientific Writing :Research Discourse
 
Paradigm shift in nursing research by RS MEHTA
Paradigm shift in nursing research by RS MEHTAParadigm shift in nursing research by RS MEHTA
Paradigm shift in nursing research by RS MEHTA
 
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...Team Lead Succeed – Helping you and your team achieve high-performance teamwo...
Team Lead Succeed – Helping you and your team achieve high-performance teamwo...
 
Measures of Position DECILES for ungrouped data
Measures of Position DECILES for ungrouped dataMeasures of Position DECILES for ungrouped data
Measures of Position DECILES for ungrouped data
 
week 1 cookery 8 fourth - quarter .pptx
week 1 cookery 8 fourth - quarter .pptxweek 1 cookery 8 fourth - quarter .pptx
week 1 cookery 8 fourth - quarter .pptx
 
Daily Lesson Plan in Mathematics Quarter 4
Daily Lesson Plan in Mathematics Quarter 4Daily Lesson Plan in Mathematics Quarter 4
Daily Lesson Plan in Mathematics Quarter 4
 
Textual Evidence in Reading and Writing of SHS
Textual Evidence in Reading and Writing of SHSTextual Evidence in Reading and Writing of SHS
Textual Evidence in Reading and Writing of SHS
 
ROLES IN A STAGE PRODUCTION in arts.pptx
ROLES IN A STAGE PRODUCTION in arts.pptxROLES IN A STAGE PRODUCTION in arts.pptx
ROLES IN A STAGE PRODUCTION in arts.pptx
 
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
 
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptx
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptxDIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptx
DIFFERENT BASKETRY IN THE PHILIPPINES PPT.pptx
 
Faculty Profile prashantha K EEE dept Sri Sairam college of Engineering
Faculty Profile prashantha K EEE dept Sri Sairam college of EngineeringFaculty Profile prashantha K EEE dept Sri Sairam college of Engineering
Faculty Profile prashantha K EEE dept Sri Sairam college of Engineering
 
Multi Domain Alias In the Odoo 17 ERP Module
Multi Domain Alias In the Odoo 17 ERP ModuleMulti Domain Alias In the Odoo 17 ERP Module
Multi Domain Alias In the Odoo 17 ERP Module
 
Transaction Management in Database Management System
Transaction Management in Database Management SystemTransaction Management in Database Management System
Transaction Management in Database Management System
 
Mental Health Awareness - a toolkit for supporting young minds
Mental Health Awareness - a toolkit for supporting young mindsMental Health Awareness - a toolkit for supporting young minds
Mental Health Awareness - a toolkit for supporting young minds
 
How to Make a Duplicate of Your Odoo 17 Database
How to Make a Duplicate of Your Odoo 17 DatabaseHow to Make a Duplicate of Your Odoo 17 Database
How to Make a Duplicate of Your Odoo 17 Database
 
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptx
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptxBIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptx
BIOCHEMISTRY-CARBOHYDRATE METABOLISM CHAPTER 2.pptx
 
4.16.24 21st Century Movements for Black Lives.pptx
4.16.24 21st Century Movements for Black Lives.pptx4.16.24 21st Century Movements for Black Lives.pptx
4.16.24 21st Century Movements for Black Lives.pptx
 

Limit of a Function

  • 1. Section 1.3 The Limit of a Function V63.0121, Calculus I January 26–27, 2009 Announcements Office Hours: MW 1:30–3:00, TR 1:00–2:00 (WWH 718) Blackboard operational HW due Wednesday, ALEKS initial due Friday
  • 3. Zeno’s Paradox That which is in locomotion must arrive at the half-way stage before it arrives at the goal. (Aristotle Physics VI:9, 239b10)
  • 4. Outline The Concept of Limit Heuristics Errors and tolerances Examples Pathologies
  • 5. Heuristic Definition of a Limit Definition We write lim f (x) = L x→a and say “the limit of f (x), as x approaches a, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) but not equal to a.
  • 6. The error-tolerance game A game between two players to decide if a limit lim f (x) exists. x→a Player 1: Choose L to be the limit. Player 2: Propose an “error” level around L. Player 1: Choose a “tolerance” level around a so that x-points within that tolerance level are taken to y -values within the error level. If Player 1 can always win, lim f (x) = L. x→a
  • 9. The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 10. The error-tolerance game This tolerance is too big L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 11. The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 12. The error-tolerance game Still too big L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 13. The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 14. The error-tolerance game This looks good L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 15. The error-tolerance game So does this L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip.
  • 16. The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip. If Player 2 shrinks the error, Player 1 can still win.
  • 17. The error-tolerance game L a To be legit, the part of the graph inside the blue (vertical) strip must also be inside the green (horizontal) strip. If Player 2 shrinks the error, Player 1 can still win.
  • 18. Example Find lim x 2 if it exists. x→0
  • 19. Example Find lim x 2 if it exists. x→0 Solution By setting tolerance equal to the square root of the error, we can guarantee to be within any error.
  • 20. Example |x| Find lim if it exists. x→0 x
  • 21. Example |x| Find lim if it exists. x→0 x Solution The function can also be written as |x| 1 if x > 0; = x −1 if x < 0 What would be the limit?
  • 26. The error-tolerance game y 1 x Part of graph in- −1 side blue is not inside green
  • 29. The error-tolerance game y Part of graph in- side blue is not 1 inside green x −1
  • 30. The error-tolerance game y Part of graph in- side blue is not 1 inside green x −1 These are the only good choices; the limit does not exist.
  • 31. One-sided limits Definition We write lim f (x) = L x→a+ and say “the limit of f (x), as x approaches a from the right, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) and greater than a.
  • 32. One-sided limits Definition We write lim f (x) = L x→a− and say “the limit of f (x), as x approaches a from the left, equals L” if we can make the values of f (x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) and less than a.
  • 33. Example |x| Find lim if it exists. x→0 x Solution The function can also be written as |x| 1 if x > 0; = x −1 if x < 0 What would be the limit? The error-tolerance game fails, but lim f (x) = −1 lim f (x) = 1 x→0− x→0+
  • 34. Example 1 Find lim+ if it exists. x x→0
  • 38. The error-tolerance game y The graph escapes the green, so no good L? x 0
  • 40. The error-tolerance game y Even worse! L? x 0
  • 41. The error-tolerance game y The limit does not exist because the function is unbounded near 0 L? x 0
  • 42. Example 1 Find lim+ if it exists. x x→0 Solution The limit does not exist because the function is unbounded near 0. Next week we will understand the statement that 1 lim+ = +∞ x x→0
  • 43. Example π Find lim sin if it exists. x x→0
  • 44. y 1 x −1
  • 45. What could go wrong? How could a function fail to have a limit? Some possibilities: left- and right- hand limits exist but are not equal The function is unbounded near a Oscillation with increasingly high frequency near a
  • 46. Meet the Mathematician: Augustin Louis Cauchy French, 1789–1857 Royalist and Catholic made contributions in geometry, calculus, complex analysis, number theory created the definition of limit we use today but didn’t understand it
  • 47. Precise Definition of a Limit Let f be a function defined on an some open interval that contains the number a, except possibly at a itself. Then we say that the limit of f (x) as x approaches a is L, and we write lim f (x) = L, x→a if for every ε > 0 there is a corresponding δ > 0 such that if 0 < |x − a| < δ, then |f (x) − L| < ε.
  • 48. The error-tolerance game = ε, δ L a
  • 49. The error-tolerance game = ε, δ L+ε L L−ε a
  • 50. The error-tolerance game = ε, δ L+ε L L−ε a − δaa + δ
  • 51. The error-tolerance game = ε, δ This δ is too big L+ε L L−ε a − δaa + δ
  • 52. The error-tolerance game = ε, δ L+ε L L−ε a −aδ δ a+
  • 53. The error-tolerance game = ε, δ This δ looks good L+ε L L−ε a −aδ δ a+
  • 54. The error-tolerance game = ε, δ So does this δ L+ε L L−ε aa a δ δ − +