Precise Definitions of Limits in Analysis

undefined

MAT 3749

Introduction to Analysis

Section 2.1 Part 1

Precise Definition of Limits

http://myhome.spu.edu/lauw

References



Section 2.1

Preview

Recall: Left-Hand Limit

Recall: Right-Hand Limit

Recall: Limit of a Function

Recall

Deleted Neighborhood



For all practical purposes, we are going

to use the following definition:

Precise Definition

Precise Definition

Precise Definition

Precise Definition

Precise Definition

Precise Definition

Example 1

Analysis

Use the

𝜀

−

𝛿

 definition to prove that

Proof

Guessing and Proofing



Note that in the solution of Example 1 there were two

stages —

guessing

and

proving



We made a preliminary analysis that enabled us to

guess a value for

𝛿

. But then in the second stage we

had to go back and prove in a careful, logical fashion

that we had made a correct guess.



This procedure is typical of much of mathematics.

Sometimes it is necessary to first make an intelligent

guess about the answer to a problem and then prove

that the guess is correct.

Remarks



We are in a process of “reinventing”

calculus.  Many results that you have

learned in calculus courses are not yet

available!



It is like …

Remarks



Most limits are not as straight forward as

Example 1.

Example 2

Use the

𝜀−𝛿

definition to prove that

Analysis

Use the

𝜀−𝛿

definition to prove that

Analysis

Use the

𝜀−𝛿

definition to prove that

Proof

Use the

𝜀−𝛿

definition to prove that

Questions…



What is so magical about

 in          ?



Can this limit be proved without using

the “minimum” technique?

Example 3

Prove that

Analysis

Prove that

Proof (Classwork)

Prove that

Slide Note

Embed Share

Download

Delve into the precise definitions of limits in mathematical analysis, exploring left-hand limits, right-hand limits, limit of a function, and more. Gain insights into how limits are defined and understood in the context of mathematical functions.

lyke_ari Follow

Uploaded on Sep 21, 2024 | 0 Views

Download Presentation

Please find below an Image/Link to download the presentation.

The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. Download presentation by click this link. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.

E N D

Presentation Transcript

MAT 3749 Introduction to Analysis Section 2.1 Part 1 Precise Definition of Limits http://myhome.spu.edu/lauw

References Section 2.1

Preview The elementary definitions of limits are vague. Precise (? ?) definition for limits of functions. The definition is highly polished and stated sophisticatedly. It takes time to get used to.

Recall: Left-Hand Limit We write = lim x ( ) f x L a and say the left-hand limit of ?(?), as ? approaches ?, equals ? if we can make the values of ?(?) arbitrarily close to ? (as close as we like) by taking ? to be sufficiently close to ? and ? less than a.

Recall: Right-Hand Limit We write = lim x ( ) f x L + a and say the right-hand limit of ?(?), as ? approaches ?, equals ? if we can make the values of ?(?) arbitrarily close to ? (as close as we like) by taking ? to be sufficiently close to ? and ? greater than a.

Recall: Limit of a Function = lim ( ) f x L x a if and only if = = lim ( ) f x L lim ( ) f x L and + x a x a Independent of ?(?)

Recall 1 x limsin x DNE 0

Deleted Neighborhood For all practical purposes, we are going to use the following definition:

Precise Definition L L L L L a a a a a

Precise Definition L L L L L a a a a a

Precise Definition if we can make the values of ?(?) arbitrarily close to ? (as close as we like) by taking ? to be sufficiently close toa

Precise Definition ( ) f x Given we want are within a distance of and L if we can make the values of ?(?) arbitrarily close to ? (as close as we like) by taking ? to be sufficiently close toa

Precise Definition ( ) f x Given we want are within a distance of and L if we can make the values of ?(?) arbitrarily close to ? (as close as we like) by taking ? to be sufficiently close toa we can find a , such that and are within a distance of x a

Precise Definition The values of ? depend on the values of ?. ? is a function of ?. Definition is independent of the function value at a

Example 1 Use the ? ? definition to prove that ( 1 x ) + = lim 2 3 5 x

Analysis Use the ? ? definition to prove that ( 1 x ) + = lim 2 3 5 x

Proof Use the ? ? definition to prove that ( 1 x ) + = lim 2 3 5 x

Guessing and Proofing Note that in the solution of Example 1 there were two stages guessing and proving. We made a preliminary analysis that enabled us to guess a value for ?. But then in the second stage we had to go back and prove in a careful, logical fashion that we had made a correct guess. This procedure is typical of much of mathematics. Sometimes it is necessary to first make an intelligent guess about the answer to a problem and then prove that the guess is correct.