I've done Calculus long time ago But now again I am doing it

In summary, limit is a concept that can be difficult to understand at first, but has a lot of significance in mathematics.
  • #1
Moni
181
1
I've done Calculus long time ago! But now again I am doing it seriously to become an expert on it :)

And what I emphasise is the underlying ideas, not just doing maths :(

So, what I want to discuss first, about LIMIT.

How the concept of Limit came from? why it's always x -> 0...type? what's these delta, epsilons? And why this is defined so complexly ?
 
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  • #2
The concept of limit took a long time to develop, and it has a rather complex history. I suggest trying google.

It is NOT always x->0. It can be x-> anything. The epsilon delta approach was developed in the nineteenth century to give a mathematically rigorous foundation to the idea. Once you get the hang of it, it isn't so bad.
 
  • #3


Originally posted by Moni
I've done Calculus long time ago! But now again I am doing it seriously to become an expert on it :)

And what I emphasise is the underlying ideas, not just doing maths :(

So, what I want to discuss first, about LIMIT.

How the concept of Limit came from? why it's always x -> 0...type? what's these delta, epsilons? And why this is defined so complexly ?


limit f(x) = what f(x) approaches as x approaches 0, infinity, ... whatever etc...
 
  • #4
Thanks MathMan!
I've read books in my classes, but those are all full of Typical examples and theories!

Google isn't helping much :(

Then limit is open interval in one side ?
 
  • #5


Originally posted by PrudensOptimus
limit f(x) = what f(x) approaches as x approaches 0, infinity, ... whatever etc...

Aha! Chinese Man has started showing his Kung Fu in the field of Calculus :wink:

I'm in difficulty with Approaches !
 
  • #6


Originally posted by Moni
Aha! Chinese Man has started showing his Kung Fu in the field of Calculus :wink:

I'm in difficulty with Approaches !


Heh, you are a funny guy bud.

Approaches is a concept that takes a while to understand, when I first see limit... I cogitated on it for about 4 weeks, until I get a real understanding of it.

x-->0, meaning x = 0.000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001...

x-->infinity, meaning x = 9999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999!

suppose L = Limit(x-->0) f(x), where f(x) is the function graph, as x--->0, something really small and close to 0--f(x) is approaching L.
 
Last edited:
  • #7


Originally posted by PrudensOptimus
Heh, you are a funny guy bud.

Approaches is a concept that takes a while to understand, when I first see limit... I cogitated on it for about 4 weeks, until I get a real understanding of it.

x-->0, meaning x = 0.000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001...

x-->infinity, meaning x = 9999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999!

suppose L = Limit(x-->0) f(x), where f(x) is the function graph, as x--->0, something really small and close to 0--f(x) is approaching L.

Asian man we all are Asian! We know each others culture ;)

Hmm...if Limit is what you are talking...then why it's said in the books that it has great impact on the world of Calculas !

At least what I've done in my classes ... just solving problms :(
And there I found no uses of Limit
 
  • #8


Originally posted by Moni
Asian man we all are Asian! We know each others culture ;)

Hmm...if Limit is what you are talking...then why it's said in the books that it has great impact on the world of Calculas !

At least what I've done in my classes ... just solving problms :(
And there I found no uses of Limit

Limit is usually a prelude to Derivates(rate at something changes).

Derivative is basically y/x, as x becomes really really really small, really close to 0, but not 0.
 
  • #9
Limits actually came before derivatives, and they helped determine many algorithms for differentiating problems, such as product rule, quotient rule, chain rule, etc...If those rules were not around, we would still be doing the limit of a function as the function approaches something...I think that would be very tedious and hard...But the purpose of a limit is that it also helps us come up with new algorithms of problems that are unsolvable with regular derivative rules...

One example to show the use of limits is trig... Trig functions do not obey regular differentiation rules, therefore in order to explain why the derivative of sin(x) is cos(x)...We use limits to see how a graph behaves as it approache a certain given value or interval... See the proof for the derivative of sin(x) or cos(x) to see what I mean...Even logarithms have their own algorithms for differentiating...But all these algorithms were developed through the use of limits...and of course integrals...We can't forgot those.
 

1. How can I refresh my knowledge of Calculus after a long time?

One way to refresh your knowledge of Calculus after a long time is to review your notes and old assignments. You can also use online resources such as videos, practice problems, and worksheets to help jog your memory.

2. Is it normal to struggle with Calculus after not doing it for a long time?

Yes, it is normal to struggle with Calculus after a long break. It is a complex subject and requires constant practice to maintain proficiency. Don't get discouraged and keep practicing, your skills will come back with time.

3. Are there any tips for getting back into Calculus after a long break?

One helpful tip is to start with basic concepts and work your way up. It may also be beneficial to work with a tutor or study group to review and clarify any confusing topics. Additionally, make sure to allocate enough time for practice and study each day to gradually build up your skills.

4. Should I start from the beginning or pick up where I left off in Calculus?

This depends on your comfort level with the material. If you feel confident in your understanding of the earlier concepts, you can pick up where you left off. However, if you feel like you need a refresher, it may be beneficial to start from the beginning to solidify your understanding.

5. How can I stay motivated while relearning Calculus?

Setting attainable goals, rewarding yourself for progress, and reminding yourself of the practical applications of Calculus can help you stay motivated. It can also be helpful to remind yourself of why you are relearning Calculus and the benefits it will bring in the long run.

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