Integrals and Antiderivatives - Area Example

avatar
(Edited)

In this video I go over a very useful example from my calculus textbook which illustrates that the area under the curve is just the antiderivative of the curve. This video is to basically introduce the concept of antiderivatives and integrals which I will show in my later videos on integral calculus and the fundamental theorem of calculus.


Watch video on:

Download video notes: https://1drv.ms/b/s!As32ynv0LoaIiZRQYg7NiPCxJKuHgQ?e=mhwhzg


View Video Notes Below!


Download these notes: Link is in video description.
View these notes as an article: https://peakd.com/@mes
Subscribe via email: http://mes.fm/subscribe
Donate! :) https://mes.fm/donate
Buy MES merchandise! https://mes.fm/store
More links: https://linktr.ee/matheasy

Reuse of my videos:

  • Feel free to make use of / re-upload / monetize my videos as long as you provide a link to the original video.

Fight back against censorship:

  • Bookmark sites/channels/accounts and check periodically
  • Remember to always archive website pages in case they get deleted/changed.

Recommended Books:

Subscribe to MES Truth: https://mes.fm/truth
MES Links Telegram channel: https://t.me/meslinks

Join my forums!

Follow along my epic video series:


NOTE #1: If you don't have time to watch this whole video:

Browser extension recommendations:


Integrals and Antiderivatives - Area Example

Integrals and AntiDerivatives.jpg

Example: Part 1

image.png

Solution:

image.png

image.png

Example: Part 2

image.png

Solution:

image.png

Example: Part 3

image.png

Solution:

image.png



0
0
0.000
2 comments
avatar

Thanks for your contribution to the STEMsocial community. Feel free to join us on discord to get to know the rest of us!

Please consider delegating to the @stemsocial account (85% of the curation rewards are returned).

You may also include @stemsocial as a beneficiary of the rewards of this post to get a stronger support. 
 

0
0
0.000