Simply marvelous! Incredible! I really appreciate that you make these videos. I imagine in decades to come people will still be watching them for clear, practical math explanations : )
i learned it in real analysis class. The proof is a pain yet so simple. You need to know a lot of concepts first and present them, then it becomes simple arithmetics
Porque no nos dijiste que habla español y tienes un canal matemática en español. Forgive my poor Spanish. As someone who is self learning math and Spanish, it was a pleasant surprise to find out that you also have a math channel for Spanish speaking audiences. Very curious to know how you came to speak Spanish, and if you are not a native speaker, how did you learn, and what parallels if any have you noticed between learning math and learning a spoken language?
Heyyy there dear math sorcerer. You are amazing. I do appreciate your work. I have a question not only for you but also for all the community here I am in the final year of my MSc in pure maths and want to select my thesis on cryptography since I have a special tendency toward this. Now my question is on what topic to pick up so that I may continue working on the same topic in my Ph D when i get the chance to please help me out because I have only one week to submit my topic to the department I hope i am lucky or fortunate enough to have your help Wholeheartedly appreciated in advance since i know you will give me a hand ❤❤
I think you should mention that the FTC is only applicable to functions that posses an anti-derivative. And.. unfortunately, most important functions in Physics and Engineering that are required to be integrated do not possess an anti-derivative. For example, the normal distribution in statistics and quantum theory just to mention 2 areas of math and science.
Simply marvelous! Incredible! I really appreciate that you make these videos. I imagine in decades to come people will still be watching them for clear, practical math explanations : )
Thank you for explaining this in such a simple way. This video hit all the topics that will be on my quiz tomorrow!
I really wish i could reach out beyond my screen and give you a handshake 👏🏼thank you
man your content is pure gold, thank you. for real.
i learned it in real analysis class. The proof is a pain yet so simple. You need to know a lot of concepts first and present them, then it becomes simple arithmetics
I've watched a ton of your videos and just now saw the Udemy links. I'm about to get my math on.
Very interesting
Incredible teacher thank you so much
Porque no nos dijiste que habla español y tienes un canal matemática en español.
Forgive my poor Spanish. As someone who is self learning math and Spanish, it was a pleasant surprise to find out that you also have a math channel for Spanish speaking audiences. Very curious to know how you came to speak Spanish, and if you are not a native speaker, how did you learn, and what parallels if any have you noticed between learning math and learning a spoken language?
I am from cuba so it’s actually my first language.
"mathispower4u en español" tiene un locutor en español .
@@TheMathSorcerer Your English is scary good! I reckon you live in the US. How old were you when you moved there?
thnk you my teacher
Super clear.
This video is extraordinary.
You're nothing but a fucking LEGEND !
"F(x)"-ing LEGEND!
Fire as always
I love this so much! Thanks for posting!
Great video
Thanks!
That's good I still remember my calculus classes 💪🤙👌👌👏👏👏
Great video. I still have to finish your Udemy course Calculus 1:)
Por favor haz videos de matemáticas en español!!! 😀 los vería todos
If you did this for trig then I would probably watch it at least 5 times before my class starts
Fun Theorem of calculus
Hello, God
@@JakeBerg777 have a complaint about my Universe game for the PU? Careful with the amnestic settings.
I believe sin(x) is an odd function and cos(x) is an even function. Right? So, if you integrate sin(x) over the interval [ -pi/2, +pi/2] you get zero.
That is correct.
@@deanmiller5235 If you're integrating cos(x) over the same interval, you can instead integrate over [0 , +pi/2] and multiply the answer by 2.
Yes, you can also do that because cos is an even function.
@@deanmiller5235 Cool. Because Chris Tisdell has done that in his Fourier series lectures.
@@StaticBlaster Ok nice. I have not watched those videos before.
Good
😀
IT'S *SO* EASY!
Too bad that finding anti-derivatives is hard as "F"!
37:55 lower limit=2,but domain of arcsin(t) is [-pi/2,pi/2]???!
Heyyy there dear math sorcerer. You are amazing.
I do appreciate your work.
I have a question not only for you but also for all the community here
I am in the final year of my MSc in pure maths and want to select my thesis on cryptography since I have a special tendency toward this.
Now my question is on what topic to pick up so that I may continue working on the same topic in my Ph D when i get the chance to
please help me out because I have only one week to submit my topic to the department
I hope i am lucky or fortunate enough to have your help
Wholeheartedly appreciated in advance since i know you will give me a hand ❤❤
I think you should mention that the FTC is only applicable to functions that posses an anti-derivative.
And.. unfortunately, most important functions in Physics and Engineering that are required to be integrated do not possess an anti-derivative.
For example, the normal distribution in statistics and quantum theory just to mention 2 areas of math and science.
Nice!