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 :)
@@eveningafterrain Hi buddy Passed the class, graduated, now work as an engineer but unfortunately forgot absolutely everything I learned in this class lool
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)