Regions of integration | MIT 18.02SC Multivariable Calculus, Fall 2010
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- เผยแพร่เมื่อ 4 ก.พ. 2025
- Regions of integration
Instructor: Joel Lewis
View the complete course: ocw.mit.edu/18-...
License: Creative Commons BY-NC-SA
More information at ocw.mit.edu/terms
More courses at ocw.mit.edu
my current prof has been stuck on this topic for over a week and nobody has any clue wtf is going on and you explained it so elegantly! thank you very much :)
relatable, how's life :D
What a great lesson! Clear and simple, finally made me understand these limits. Thanks!
Thank you very much!!! This 17 min. video makes more sense than hours of lectures with my professor. Very crystal clear explanation. Thank you!!
Wow!Beautifully explained and finally understood!
Thanks a million,MIT!❤️
simply wow !! the passion for the subject just flows through .....A Big Thank you ....Amazing video!!
This just cannot be better.
best explanation ive seen on this topic. thank you joel!!!
thank you so much for taking the time to do this, it help a lot!
Thanks for sharing. Finally understood how to get the limits
Very helpful. Very good teacher.
Thanks 🤍❤️
Thanks for video and helping for nature.May be for nature and future...
Big thanks from me!! Only three more days, I will do my examination. I understand a lot by your explaination.
"pause the video to work on it"
I have no fucking clue what to do thats why im here
awesome explanation, i finally understood the ordering.....kept mixing it up.
Thanks for making this so clear!
Thanks for sharing this videos! Its very helpful
Thank you very much. I found it very clear!
im in love! exactly what i needed to know. thank you
wait this is amazing.. why am i just getting this
Your are a awesome prof
Can someone do this integral in polar coords; i get double what i should for some reason when i integrate.
Thank you very much for this tutorial, it is very helpful !
How you doing now buddy after 8 years?!...
@@eveningafterrain Hi buddy Passed the class, graduated, now work as an engineer but unfortunately forgot absolutely everything I learned in this class lool
@@l0reane I didn't expect your reply.... Anyways I am very happy you doing well..
Even I am a first year engineering student... 🙂
Thank you a lot!
Nice one
Y=-2x how
How did he get y=-2x?
hatts off!!!
I compared Oxford lecture with MIT for Doble integral, MIT is more understandable
Man!!! Pure genius!!!!
Can't you just convert the second one into a polar problem?
gud to understand
how to get square root 2, square root 2
the line x=y creates a 45° angle with the x axis, for the unit circle the points of intersection of the circle and said line are (x,y)= (√2 / 2 , √ 2 / 2)
If you want to generalize for a given radius r you'd have to multiply that by r, since in this case r=2 you get (x,y) = (√ 2, √ 2)
@@yuihani5954 Thx!
What will the square root be (positive/ negative) in the 2nd, 3rd and 4th Quadrant?
2nd and 3rd negative and 1st and 4th positive
I have a mind of the potato
This is helpful ❤️🤍
Thx. Cool job, sigh.
Thank you so much!