I've always wondered why in determination of characteristics curves, determinant is set to zero. Hitherto, I hadn't found an answer but thanks to this video, my curiosity has been satisfied. Thank you very much!
Very informative and educational sir. Thank you very much. I particularly loved your remark towards the end about Numerical methods for Parabolic/Hyperbolic PDEs, why Implicit methods work so well with parabolic PDEs while we use explicit ones for advection.
Can someone explain why the bottom equation at 28:00 has l_1 d/a at the right hand side? I do not see where this comes from if this equation follows from l_1 dv/dt + l_2 dw/dt
Very informative! Can you share how you made these slides? I have been looking for ways to make such clean looking slides with LaTeX; beamer slides look too congested.
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I've always wondered why in determination of characteristics curves, determinant is set to zero. Hitherto, I hadn't found an answer but thanks to this video, my curiosity has been satisfied. Thank you very much!
Clear explanation, lots of examples. Great for students, thank you!
Glad it was helpful!
Very informative and educational sir. Thank you very much. I particularly loved your remark towards the end about Numerical methods for Parabolic/Hyperbolic PDEs, why Implicit methods work so well with parabolic PDEs while we use explicit ones for advection.
Can someone explain why the bottom equation at 28:00 has l_1 d/a at the right hand side? I do not see where this comes from if this equation follows from l_1 dv/dt + l_2 dw/dt
Awesome video sir. Thank you.
Very informative! Can you share how you made these slides? I have been looking for ways to make such clean looking slides with LaTeX; beamer slides look too congested.
bro turn up your mic