Doing homework for FTC1 and got lost. Checked book... still lost. Checked Symolab explanation... still lost. Checked the actual worked answer in Chegg Study... still lost. Came back to trusty Krista, spent
Proof lies in substitution method and differentiate the substitute by product rule. Find g(x) and h(x) as upper and higher bounds. You end up with f'(x).
Holy hell, this is actually quite mind blowing once you realise the deeper context behind it all! Thank you so much for all your hard work and dedication! Your videos are amazing! Great depth and attention to detail, while still being quite short. I don't know how you do it but please keep them coming! =)
My calc teacher is terrible, he would go through half a lesson and then say he doesn't have his notes and couldn't finish the lesson so we all didn't know what to do. And half way through the semester he says if we have below a 50 percent, there's no chance of us passing. Which is like almost all of us, but thanks to you I actually learned something. Thank you so much
Im going through integral calculus this semester and the FTC went over my head and I just went through with the steps but didnt know what I was doing. This was my "a-HA!" moment. I cant wait for the second part! Thank you so so much!
If the theorem is as dreadful as all that, shouldn't we be careful and not call it by its true title? We shall call it "The Theorem that Shall Not be Named" or "You know what." Bad Harry Potter jokes aside, I thought the explanation was well executed. Great work!
I've spent weeks every day trying to understand just this.. and I still don' t understand this at all.. just this topic, i can do all the substitution etc take integrals of what ever, but seeing any explanation of this if just word vomit brain switches off makes no sense. i don't get it
Doing homework for FTC1 and got lost. Checked book... still lost. Checked Symolab explanation... still lost. Checked the actual worked answer in Chegg Study... still lost. Came back to trusty Krista, spent
Oh good! I'm so so glad the video helped! FTC can be super confusing, so it makes me so happy to know that this was able to clear it up!! :D
Proof lies in substitution method and differentiate the substitute by product rule. Find g(x) and h(x) as upper and higher bounds. You end up with f'(x).
Holy hell, this is actually quite mind blowing once you realise the deeper context behind it all! Thank you so much for all your hard work and dedication! Your videos are amazing! Great depth and attention to detail, while still being quite short. I don't know how you do it but please keep them coming! =)
Awww, thank you so much, Max! Isn't the fundamental theorem amazing?! :)
You're a fabulous teacher, thank you so much for your videos!
Aw thank you Grace!
My calc teacher is terrible, he would go through half a lesson and then say he doesn't have his notes and couldn't finish the lesson so we all didn't know what to do. And half way through the semester he says if we have below a 50 percent, there's no chance of us passing. Which is like almost all of us, but thanks to you I actually learned something. Thank you so much
You're welcome, Harley, I'm so glad I was able to help! :D
Krista King wow , I can't believe you replied. You're.....awsome!
Im going through integral calculus this semester and the FTC went over my head and I just went through with the steps but didnt know what I was doing. This was my "a-HA!" moment. I cant wait for the second part! Thank you so so much!
+ebscoHOST You're welcome, I'm so glad it helped!! :D
Great job explaining a very complicated idea!
Thanks, I'm so glad you think so! :)
Thank you so much! You saved my test!
Krista you and Patrickjmt are my favorite people on the internet and i will owe my engineering degree to you both
Thank you for everything
+brave ali You're welcome! I'm happy to help, and I hope you told Patrick, too! :)
I would describe you as superhuman, but you're far better than that! You really are one of the greatest teachers in history! Thanks!
I'm honored! Thank you so much, Jayce! :)
Nice work, Krista, that's a tricky topic and you covered it well.
+picknikbasket Thank you so much Picknik!
I like this video. Very good teaching style. Keep up the good work.
Thanks!
Please keep up the good work !
+Danx Daniel Will do!
Excellent, thanks!
You're welcome, David! :)
First half, second half. I wish. One week of integrals.
Part 2 should be a ripper, looking forward to it!
You make calculus fun to practice....Thanks you very much.
Thank you KRISTA
+Esam H You're welcome, I'm happy to help!
Thanks Sister
Is there any geometrical explanation to this?
Smashing! Enjoyed learning
+Yusuf Govani Great, I'm so glad!
If the theorem is as dreadful as all that, shouldn't we be careful and not call it by its true title? We shall call it "The Theorem that Shall Not be Named" or "You know what." Bad Harry Potter jokes aside, I thought the explanation was well executed. Great work!
+Nathan Tonning Thanks, and I think I like you're idea! ;D
Please : can you tell me ( what is the type of this program that you use it ? ) thank you
+Esam H It's called Sketchbook, but here's more information: blog.calculusexpert.com/learn/how-i-create-my-videos
Idk why but I’m confused at why f(x) equals the integral.
I got a sketchbook program, but I could not get on the black background
+Esam H You need to create a completely black image, and then import that into Sketchbook, and you'll be good to go!
You are a good human being and a great. I love you as a sister ...
I've spent weeks every day trying to understand just this.. and I still don' t understand this at all.. just this topic, i can do all the substitution etc take integrals of what ever, but seeing any explanation of this if just word vomit brain switches off makes no sense. i don't get it
Great
+Esam H Thanks!
Lol at the titles