Euler's Method | MIT 18.03SC Differential Equations, Fall 2011
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- Опубліковано 10 лип 2024
- Euler's Method
Instructor: David Shirokoff
View the complete course: ocw.mit.edu/18-03SCF11
License: Creative Commons BY-NC-SA
More information at ocw.mit.edu/terms
More courses at ocw.mit.edu
Had the chance of having this teacher for Cal 3 at McGill =) He's awesome, he definetly likes teaching. He'd prepare a engineering-related joke every Friday class =) and he dressed up as an integral for Halloween! Thumbs up David!
The university I'm at sucks, or maybe it's just me, yeah I'm probably not university calibre
This is super helpful! This is almost exactly how my professor does it and I was so lost when it came to Euler but now it makes so much sense! THANK YOU!
Fantastic instruction, cameraman is a little zoom-happy though... The resolution of the video is plenty good, no need for close-ups. I'd rather see more of the board at a time.
Professor Shirokoff, thank you for a fantastic explanation of Euler's Method.
this is exactly what I was looking for, thanks!
You welcome
Finally I Got it !! .. Thanks from middle east
u helped alot on my Final Applied math exam
this makes my day ....
this is perfect and just in time for my calc ap exams!
For part b, you only checked concavity at one point, but assumed it to be concave down until x=1/2. If it changed concavity before then, you could arrive at the wrong conclusion.
hi please can you ansewer this qst i am stucking on it "find optimal step h for euler method
"
Perfect...
I understood it perfectly...
Great lecture!
This was super helpful thank you
and for a second order ODE? help me plz :)
It works! Thank you :D
good job thank you!
thank u soo much bro
Thanks!
Good one teaching style .
awesome
very helpful. Just wish the camera would stop zooming in everywhere all the time.
can u plzz add modified eulers method
+Yeshwanth Sunkara The modified method can be found in lecture 2 of 18.03: ua-cam.com/video/LbKKzMag5Rc/v-deo.htmlm41s
why does he stop at y = -0.25 and says that this is the solution that we're looking for?
It asked to approximate Y(1), with a step size of h=0.5, which means that you will go up until n=2 (x=0, 0.5, 1)
@@zackm5693 mmmm thank you for answering bro. I still didn't get it fully, but I really appreciate your answer. Warm regards from Russia, bro. Peace to you! God bless you :) Monday, December 17th, 2018.
@@robertoenriquechavezrodrig731 peace to you too! Warm regards from Canada.
His pauses are funny.
I don't necessarily agree with this teaching method. There are too many steps listed when really all that is needed to find this solution is knowing that stepsize*(slope at Po)=y' and y value at P1 = (y value at Po)+ y'
But if your teacher tells you to do it this way, then you better learn how.
this guy is yoked
No fair: the guy wrote the question on the blackboard before the video started. This means he has a tendency to do ten minutes' work in just ten minutes, rather than the usual 43:17.
You're supposed to write on the board while we watch you do it on the Intenet. Doing it beforehand is cheating. No fair.
Also he forgot the Standard Behavior for UA-cam instructors, blathering on for ten minutes and then saying "Now let's get started."
What's the matter with this guy? Tell him to get with the program, OK?
-dlj.
you can pause it bro. Chill your eyebrows
Kayla,
No amount of pausing the video will bring this guy back into compliance with the First Law of UA-cam Pedagogy: 75% of all videos must show the back of the instructor's head.
Even worse, this guy even talks about the content of the course. What happened to the library hours? Exams schedule? Department secretary's birthday?
Sheesh!
Oh, i love the irony hahaha