Thanks for this clear and informative lecture. I was tempted to skip it, thinking that even a neophyte such as myself understands linear interpolation ! But I'm glad that I didn't because the basic concepts and definitions presented here helped me to better understand other things that I'd previously read about quadratic and cubic interpolation.
Kids these days have no excuse not to be passing math. I wish I had TH-cam back in the early 90's to help with tutoring in college. Instead, I had an insane teacher with grad students who didn't know how to explain things either.
Thank you. To get even more help, subscribe to the numericalmethodsguy channel, and go to MathForCollege.com/nm and MathForCollege.com/ma for more resources and share the link with your friends through social media and email. Follow my numerical methods blog at AutarKaw.org.
As I understood, u can't predict the y of some dot which have the x-coordinate, lets say x, if x is not in the interval (x0,xn)... Is there a way to predict such y. Langrange's interpolation is getting pretty wild after this given interval, so is there a way to get a real function after given Xs and Ys, which would give a real Ys after given interval of Xs...?
Wow 😳 15 yrs video and still valid
This is actually the best explanation on youtube by far.
Thanks for this clear and informative lecture. I was tempted to skip it, thinking that even a neophyte such as myself understands linear interpolation ! But I'm glad that I didn't because the basic concepts and definitions presented here helped me to better understand other things that I'd previously read about quadratic and cubic interpolation.
Kids these days have no excuse not to be passing math. I wish I had TH-cam back in the early 90's to help with tutoring in college. Instead, I had an insane teacher with grad students who didn't know how to explain things either.
I used to thnk the same 😔
ok boomer
This guy is my new hero now. Good job
Thank you.
To get even more help, subscribe to the numericalmethodsguy channel, and go to MathForCollege.com/nm and MathForCollege.com/ma for more resources and share the link with your friends through social media and email.
Follow my numerical methods blog at AutarKaw.org.
Excellent explanation .. Had this on my mind since so many days ... you made it very very clear and easy to understand. Thank you Sir!
quite good explained :)
so those round splines where even the following points interact with each other are cubic splines..?
Very good explanation. Thank you sir.
Thank you so much!
As I understood, u can't predict the y of some dot which have the x-coordinate, lets say x, if x is not in the interval (x0,xn)... Is there a way to predict such y. Langrange's interpolation is getting pretty wild after this given interval, so is there a way to get a real function after given Xs and Ys, which would give a real Ys after given interval of Xs...?
Thanks for the video, this was very informative.
Thank you for this. It was explained very well
Thanks for the video. Can you please also put a video on cubic splines?An example on using the formula!
Ah 240p we meet again
Brilliant! As usual...
thanks, i'll check out the example now.
Hi
How solve b.v.p by cubic spline method.
Appreciate this video. Thanks numericalmethodsguy!
Thank you very much :-) really informative
Great lectures! Thank you very much.
How prove Pn(x) of newton equal Pn(x) of Lagrange
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Thanks really helped
Thankyou sir.
excellent very clear now before i was like out to water
Great. Thank you.
Thank you!
thank you
gracias, mucha ayuda
2019 🙏🙏
how did I get here?
Sir you teaches so bad not clear explanation
Thank you for your kind comment. Use multiple platforms and sources to learn. mathforcollege.com/nm/topics/spline_method.html
Thanks for the video. Can you please also put a video on cubic splines?An example on using the formula!
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