Love your videos! I was a math major but I ended up getting a job in IT, and these are great for refreshing my memory on what I’ve forgotten since school. Keep being awesome!
I always see the proof using binomial theorem, but this one is crazy! It even extends to a non integer power. But I wonder why it doesn't count as a proper proof.
It's comforting that we end up with the same results even when we get there via very different means. Not exactly a surprise, but it's still nice to see.
Why did you not answer my question? Is it possible to simplify the numerator and denominator of a fractional function before drawing, for example (x^2-x-2)/(x^3-1) the value of (x-1)... Thanks
Love your videos! I was a math major but I ended up getting a job in IT, and these are great for refreshing my memory on what I’ve forgotten since school. Keep being awesome!
Your connection to the learner is outstanding -- a well done and bravo from a long time mathematics teacher!
These videos are proof that Prime Videos is a great teacher! 🎉😊
Glad you like them!
I always see the proof using binomial theorem, but this one is crazy! It even extends to a non integer power. But I wonder why it doesn't count as a proper proof.
Amazing proof... Loved the video man!
Brilliant, Most people cover this proof only for Natural Numbers!
A video covering it for all reals is a gem!
It's comforting that we end up with the same results even when we get there via very different means. Not exactly a surprise, but it's still nice to see.
And no Binomial Theorem in sight!
I did another a while ago with the binomial Theorem
@@PrimeNewtons I saw it! I never learned that proof when I took calculus.
How interesting you explained it, I enjoyed it❤❤❤
Great video. It's true, I must never stop learning.
Awesome proof.
thank you so much for you help! you're a life saver, wish you were my teacher :)
Brilliant💯🥇
Great Video! I would like to see a proof via first principle.
cool, but what if X is negotive?
Well played !
Why did you not answer my question? Is it possible to simplify the numerator and denominator of a fractional function before drawing, for example (x^2-x-2)/(x^3-1) the value of (x-1)... Thanks
Email me a problem that requires this explanation, and I'll give you an answer. It's the best way to get direct answers from me.
woah this is so cool
wow! that was great
Can you please, do FTC proof
my man👊🏾
Beautiful
Wow its been awhile since ive touched math and i could still follow this...im shortchanging myself badly 😢😊
beautiful💫 I'm gonna pass my exam for sure🔥🔥🔥
this is high order
Holy shit
He's a goat 🐐
Allahu Akbar