Great one. Probably the only source explaining why Frobenius Method is done the way it is. Do you follow any book? If yes, can you please share the name? Thanks.
I only did it for order 1 and for the first kind: ua-cam.com/video/eGFRq1qjSAc/v-deo.html Unfortunately I don't have the one dealing with the second kind
Question. After getting the differential equation, how do I then evaluate the first 4 terms of the solution given by an indicial root of, lets say, 0.63?
One should find solutions for both r values. However, if the two r values differ by an integer, the problem can become much harder to solve. Please watch my bessel function of second kind with Frobenius if you want to see it done.
The only source so far that care about explaining why Frobenius theorem exist.
Please keep up the good work and continue to demystify math
Agreed 100%. A year later, this video is still the only one I can find of which explains that.
Dude this is the only lecture I understood about Frobenius, THANK YOU
Thanks Professor! Finally understand. Very intuitive with a systematic approach.
Great one. Probably the only source explaining why Frobenius Method is done the way it is. Do you follow any book? If yes, can you please share the name? Thanks.
Thank you. Finally understood why I'm doing it
Thank you for this lecture! It's easy to understand.
The way you teach it's awesome
The only video that I can understand about Frobenius lol thank you !
Thank you! I was really confused and this video saved me!
Thank you. Now I am calmer.
Great vid, so simplified and easy to follow. Best
Current I am in national institute of technology surat,India
I get somewhat in university here I learnt the full concept
awesome sir! Thank You for this !
sir thank you for these wonderful videos,Do you have any bessel's differential equation videos?
I only did it for order 1 and for the first kind: ua-cam.com/video/eGFRq1qjSAc/v-deo.html
Unfortunately I don't have the one dealing with the second kind
thanks sir ! i m eagerly waiting your videos
Great video thank you!!!!!!!!!!!!!!!!!!!!!!!!!!
Thank you so much, sir!
really helpful
thanky very much
11:20 Thank you so much!
you are awesome sir
Thank you 👏👏
On 3:48 I think it should be - sign Because of the partial fraction decomposition 1/(x(1-x))=1/x-1/(1-x)=1/x--(1+x+x^2+...)
No, it is a positive.
Thank you so much sir
老师课讲得非常好,就是有点浅,不知是否可以出一些更深的课
thank you sir
thank you !!
Do you have a video for Power series explained by same professor in same style?
sai kiran look at the playlists of this channel
Question. After getting the differential equation, how do I then evaluate the first 4 terms of the solution given by an indicial root of, lets say, 0.63?
tnx sir
Why do you consider one value of r
One should find solutions for both r values. However, if the two r values differ by an integer, the problem can become much harder to solve. Please watch my bessel function of second kind with Frobenius if you want to see it done.
Fuchs theorem
Thanks!
Thank you. Finally understood why I'm doing it