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When teaching someone how to prove a function is uniformly continuous, using epsilon/delta, which example would be among the simplest?

How much memorization should be required in a first-semester calculus course?Good ways of explaining the idea of epsilon-delta limits to bio & chem majors?The 'epsilon-delta' method for teaching limitsWhat are non-math majors supposed to get out of an undergraduate calculus class?Looking for realistic applications of the average and instantaneous rate of changeWhat is a better way to explain these claims about limit are not true in general?Which examples should we mention when teaching the concept of derivatives?Would teaching nonstandard calculus in an introduction calculus course make it easier to learn?

1

$begingroup$

I've taught how to use $epsilon, delta$ to prove that a function is continuous at a point, and I'm about to teach how to prove that a function is continuous over an open interval.

Usually, the examples I can think of that seem easy enough on the outside, require some algebraic trickery that might make it seem more daunting than it needs to be, and may inspire a "damn, this is too difficult" mentality.

Are there some examples of functions that are almost painfully straightforward to give a soft introduction to these, that I may increase the difficulty more smoothly?

calculus limits

share|improve this question

asked 4 hours ago

AlecAlec

609310

$endgroup$

• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  A linear function, perhaps?
  $endgroup$
  – paw88789
  4 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  @paw88789 - Definitely a good idea, yeah. Easy, quick, and no long lines of algebra that draw attention away from the end goal. Thanks for the tip! Any natural steps beyond that?
  $endgroup$
  – Alec
  4 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  $|sin x - sin y| le |x-y|$ makes sine a good candidate.
  $endgroup$
  – user3813
  16 mins ago
  

  
  
  
  

add a comment | 

1

$begingroup$

I've taught how to use $epsilon, delta$ to prove that a function is continuous at a point, and I'm about to teach how to prove that a function is continuous over an open interval.

Usually, the examples I can think of that seem easy enough on the outside, require some algebraic trickery that might make it seem more daunting than it needs to be, and may inspire a "damn, this is too difficult" mentality.

Are there some examples of functions that are almost painfully straightforward to give a soft introduction to these, that I may increase the difficulty more smoothly?

calculus limits

share|improve this question

asked 4 hours ago

AlecAlec

609310

$endgroup$

• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  A linear function, perhaps?
  $endgroup$
  – paw88789
  4 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  @paw88789 - Definitely a good idea, yeah. Easy, quick, and no long lines of algebra that draw attention away from the end goal. Thanks for the tip! Any natural steps beyond that?
  $endgroup$
  – Alec
  4 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  $|sin x - sin y| le |x-y|$ makes sine a good candidate.
  $endgroup$
  – user3813
  16 mins ago
  

  
  
  
  

add a comment | 

$begingroup$

I've taught how to use $epsilon, delta$ to prove that a function is continuous at a point, and I'm about to teach how to prove that a function is continuous over an open interval.

Usually, the examples I can think of that seem easy enough on the outside, require some algebraic trickery that might make it seem more daunting than it needs to be, and may inspire a "damn, this is too difficult" mentality.

Are there some examples of functions that are almost painfully straightforward to give a soft introduction to these, that I may increase the difficulty more smoothly?

calculus limits

share|improve this question

asked 4 hours ago

AlecAlec

609310

$endgroup$

share|improve this question

asked 4 hours ago

AlecAlec

609310

share|improve this question

asked 4 hours ago

AlecAlec

609310

asked 4 hours ago

AlecAlec

609310

asked 4 hours ago

AlecAlec

609310

1 Answer
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oldest

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2

$begingroup$

I think this cannot be understood without a contrasting example where it fails.
So perhaps, in addition to a linear function as suggested by @paw88789, consider $f(x) = frac{1}{x}$ over the open interval $(0,1)$.
It is continuous over that interval, but not uniformly continuous.
Fix an $epsilon > 0$; then for any $delta > 0$ one can
arrange the difference in $f$-values to exceed $epsilon$ by getting
close enough to $x=0$.

share|improve this answer

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

$endgroup$

add a comment | 

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2

$begingroup$

I think this cannot be understood without a contrasting example where it fails.
So perhaps, in addition to a linear function as suggested by @paw88789, consider $f(x) = frac{1}{x}$ over the open interval $(0,1)$.
It is continuous over that interval, but not uniformly continuous.
Fix an $epsilon > 0$; then for any $delta > 0$ one can
arrange the difference in $f$-values to exceed $epsilon$ by getting
close enough to $x=0$.

share|improve this answer

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

$endgroup$

add a comment | 

2

$begingroup$

I think this cannot be understood without a contrasting example where it fails.
So perhaps, in addition to a linear function as suggested by @paw88789, consider $f(x) = frac{1}{x}$ over the open interval $(0,1)$.
It is continuous over that interval, but not uniformly continuous.
Fix an $epsilon > 0$; then for any $delta > 0$ one can
arrange the difference in $f$-values to exceed $epsilon$ by getting
close enough to $x=0$.

share|improve this answer

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

$endgroup$

add a comment | 

$begingroup$

I think this cannot be understood without a contrasting example where it fails.
So perhaps, in addition to a linear function as suggested by @paw88789, consider $f(x) = frac{1}{x}$ over the open interval $(0,1)$.
It is continuous over that interval, but not uniformly continuous.
Fix an $epsilon > 0$; then for any $delta > 0$ one can
arrange the difference in $f$-values to exceed $epsilon$ by getting
close enough to $x=0$.

share|improve this answer

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

$endgroup$

share|improve this answer

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280

answered 3 hours ago

Joseph O'RourkeJoseph O'Rourke

15k33280