mreditor16
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LOL so I can write either in my answer?Yes to "so is M = 3 or M = 3 + 1/epsilon ? :O"
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Easy as limits question so you should help all the first year unsw actl kids (1 Viewer)
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No.
Sorry, that "yes" was a joke referring to "or" in logic. ( http://en.wikipedia.org/wiki/OR_gate )
Use the
(Assuming the apple isn't a green one, but is a red one.)
The 
thing needs to guarantee that for ALL x greater than M, given ANY 
, we'll have -L|<\varepsilon)
.
In this case, if we just had M equals the constant 3, we could pick
to be small enough so that not every x > 3 makes the function close enough to the desired limit.
(e.g. if x = 3.1 > 3, \approx 0.92)
, thus failing if we pick 
, say)
This is why we usually need M to depend on.
In this case, if we just had M equals the constant 3, we could pick
(e.g. if x = 3.1 > 3,
This is why we usually need M to depend on
mreditor16
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Then, on a similar note, is this proof correct?
mreditor16
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Also, I have a theory - maybe you only use the idea of min for epsilon-delta proofs but not for epsilon proofs, such as the original Q? Anyone?
This proof was an epsilon-delta proof. Maybe give an example of where you've seen a min being used? Usually for these ones, where they're just asking you to prove a limit of a simple function, you don't need to use a min.
Edit: realised the picture had an example
mreditor16
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look at post 26, which is how my lecturer did it.
I don't get where the 1/5 popped outThen, on a similar note, is this proof correct?
-1/5 is the value of the quotient when x = -1.
mreditor16
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for that range? kress explained it in lecture!
OK I think I get what the lecturer's saying now:Then, on a similar note, is this proof correct?
If
If
mreditor16
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exactly so how does this min stuff relate to the original proof for our original Q?OK I think I get what the lecturer's saying now:
If, taking
always makes the function within
If, taking
that we used in the proof is not valid for all x in this domain. But then if we take
, it is certainly true that
, so that means
(since we've taken
For the original Q, we don't need to worry about min, because any facts that you used were true for all x in the domain you restricted x to (plus, that was a limit to infinity, so you can just restrict x to be greater than 3, or greater than anything, without having to worry about the restriction).
mreditor16
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so essentially only worry about min for questions proving limit to a certain point, whereas don't worry about for questions proving limit to infinity ???
Not necessarily. For easier limits at a point, you may not need to worry about min at all. For trickier ones, you usually need to use more tricks to prove the limit, and one of these tricks is to use "min". It all depends on the question specifically, really.
mreditor16
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Thanks so much guys!!! especially you Integrand