Real Analysis | Introduction to differentiability.
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- Опубліковано 6 жов 2024
- We introduce the notion of differentiability and the derivative. Next, we give an example and a non-example. Finally, we prove that differentiability at a point implies continuity at that point.
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I am always impressed with how strong of a condition differentiability is. It can act as a sledgehammer in some proofs, but proving differentiability in interesting regions can be delicate. Analysts continually amaze me with their ability to conjure the required inequalities out of thin air. That implies a deep understanding of the properties of numbers.
I need more videos like this one, simple but yet useful
This is great stuff. I think it would be a great next lesson to talk about the Mean Value Theorems of differential and integral calculus. I remember these being applied frequently throughout many of my engineering courses.
He is going to make them, Just give him 2 seconds
Yea, they’re big in most math related courses
Love your explanations
I'm taking real analysis right now (using baby Rudin), and seriously I was so lost with the proof on differentiability implying continuity before watching this video. The way you clearly explain each step in the process is profoundly helpful, thank you so much
Great explanation, it just remind me old memories
This is the video we were looking for
in the top ten today
thank you mike
Great sir, your lectures always helpful
I'm in year 9 and I don't understand any of this.
But I enjoy it
Yeah! I was searching for this.
Thanks Sir
It would be awesome to see you explaning the first theorem of calculus and fractional calculus
Thank you!
Make more real analysis video. Cover all rudin chapters please and that would be the best real analysis playlist
I see you everywhere i go,👀👀👀
Great explanation .. Thank you .. I have a question please ..
Let's suppose that the limit ( (f(x)-f(a))/(x-a) ) is infinity when x approaches a from above a and from under a .. then can we claim that f is differentiable on a or not? If not then why (since its not obvious from the defination of the differentiability)?
this is called the case of a "vertical tangent". in this case we say that f is not differentiable at a. an example of this is the function f(x) = x^{1/3} (the cube root) at x=0. the reason f is not differentiable at a is because the definition of f being differentiable at a states that the limit of the difference quotient ( (f(x)-f(a))/(x-a) ) exists as x->a *and is finite*. it does feel a little "annoying" that such functions are not differentiable, but think about it this way: if f has a vertical tangent at a then f cannot be well-approximated by a linear function at a (since the line which best approximates f at a is a vertical line, but this does not constitute a function)
If it goes to infinity it means it has no limit. Which means no derivative.
@@schweinmachtbree1013 thank you so much for the explanation .. I have another question please ..
Let the limit of f when x approaches a from above a is positive infinity and the limit of f when x approaches a from under a is positive infinity also .. Then can we say that f has a limit when x approaches a or not?
عبدالرحمن الحصني this is the same as your previous question, but applied to f instead of (f(x)-f(a))/(x-a). In this case we say that the limit of f at a is positive infinity, or that “f diverges to infinity at a” (some would even say “f converges to infinity at a). Note that a lot of the time we need limits to be finite (e.g. with differentiability), and in such a situation we would say “f does not have a finite limit at a” (although it does have a limit at a)
@@schweinmachtbree1013 Thank you so much
Even tho i like mathematics..but what really brought me to here is because of that man🤣😍
Thank you for the viseo! Shouldn't we use the definition to prove that derivative of x^n is nx^n rather than calculating using Calculus? This is newton's way of computing derivative! Should not we show |(a+h)^n-a/h-na^{n-1}|
11:44
You are late 😛 today
Kevin Chen's stealing your thunder.
@@mjones207 yep
YAZHINEE T.S Michael’s 8PM EST videos are the middle of the night for me. So yeah, some days I’d like to sleep at night 😂
11:44 good place to stop
almost
A good place
I have a doubt at 5:41 ; why is the absolute value of "a" taken , isn't that point supposed to be the desired value. And whether the left hand limit satisfies the right hand limit too.
Sir, please make a video on location of roots of quadratic equation . I searched the whole UA-cam but couldn't find a proof of those result.
the proof of the quadratic formula is very well-known. for example see the Quadratic Formula article on wikipedia, specifically the section "Derivations of the formula".
@@schweinmachtbree1013Sir, I am not looking for proof of quadratic formula.I am looking for proof of a set of results mentioned as location of roots in chapter of quadratic equations and expression. Thank you for your help sir. Sorry for bad English. I am from India
EduHub India The roots of the quadratic equation ax^2 + bx + c = 0 are located at x = (-b +/- sqrt(b^2 - 4ac))/2a, which is the quadratic formula. I am not sure what you mean by “quadratic expression”. If this is not what you want then I can’t help you, sorry
@@schweinmachtbree1013 thank u for helping me out,sir
micheal charmin dem students, heh
🔥🔥🔥
I wanna show my version of diff⇒cont w\ ε-δ:
∀ε>0, choose δ1>0 s.t |(f(x)-f(a))/(x-a)-f'(a)|< ε ∀x:|x-a|
Wtf is it an educational video I just watched an adult and before it started. UA-cam this is not a good job. It is totally mind diverting
Ads seems to be largely dependent on the viewer, very weakly on the channel or the video
@@VaradMahashabde what do you mean by that buddy???
@@parameshwarhazra2725 UA-cam decides which ad to play depending on who is watching, and that is very weakly dependent on what video is being watched
@@VaradMahashabde I don't watch this kind of things still why they are showing such things. Disgusting!!!!
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