I have been searching for a video that explains this topic satisfactorily. Been able to find this video is truly a wish come true. Thanks very much sir and God bless you.
Thank you for your nice words, following is the link for other relevant videos on solution of PDE: ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html&si=V3M1hWepyUpmutIo
I'm really grateful that this video exists ❤. Have been searching for this topic for hours but to no avail. Finally found this video and my happiness is beyond limits 💕
Thank for suggestions:: I will work on this. I have following few more videos on PDE you can go through the same: ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html
FEM allows for flexible mesh generation, which is suitable for complex geometries. FDM typically uses structured meshes with a uniform grid, which makes it simpler to implement but less flexible for complex geometries
The explaination is very lucid, very much appreciated, can you also explain how PDEs are solved if we have the analytical dertivatives? Can you please share your email ID for further discussion?
Dear Rahul, I have used gauss seidal method for solving simultaneous equations. You can refer my video at following link for details of gussa seidal method. ua-cam.com/video/2TxH17U6WPU/v-deo.html
I have been searching for a video that explains this topic satisfactorily. Been able to find this video is truly a wish come true. Thanks very much sir and God bless you.
Thank you for your nice words, following is the link for other relevant videos on solution of PDE:
ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html&si=V3M1hWepyUpmutIo
I'm really grateful that this video exists ❤. Have been searching for this topic for hours but to no avail. Finally found this video and my happiness is beyond limits 💕
Watching this made my day! Been struggling to understand this for a while your presentation is awesome thanks you
That's a great video professor, you've represented the summary of FDM for PDE's in a nutshell...
You, good sir, have helped a student in a hurry. Thank you!
This is so clear and understandable. Thank you. One negative feedback is that the microphone sound is poor.
Thank you for your feedback.
Sir can you maka a video on forward difference that how this form is making
Partial U/partial X=U i+1,j -Ui,J/h
U made the things easy. Really appreciate, your efforts. All the best.
Thank you.
Thank you so much Sir, i was very very confused about this method, now my all doubts are clear by watching your vedio
Thank you for comment:
You can refer following videos related to PDE:
ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html
we require teachers like you sir .thank you
Thank You, Sir for Crystall Clear Explanation.
Thank for your comments:
You can refer following videos related to.PDE:
ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html
Perfect!!
Thank you Sir for such a lucid explanation
Very helpful video explained very well thanks so much
Thankyou so much sir. I was struggling to find a good explanation on this
Thankyou so much for wonderful explanation.
Thank for your comments:
You can refer following videos related to.PDE:
ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html
Well explained! You did an amazing job 👏
Very good Explanation, sir. Thank you for giving this presentation
THANKS! Understandable way of teaching!!!!
Thank you sir.. Easy to understand!
marvelous sir, built up my concept!
Thank you sir ....very good explanation 👍
Very well explanation
Thank you
best explanation sir...thank you so much
Good explanation sir. Thank u sir
You literally saved me.
Great video
Very well explained.👏
Very nice explanation sir
Excellent video !! sir, can you post a video on numerical solution of partial differential equation using finite element analysis
nice explaination
How we transfer at the end into matrices form? And then find values
Good Video Sir
Thank you sir!
Can you please make video for solution of Reynolds equations by FDM
Is it possible to solve a third order partial differential equation by finite difference method?
Thanks a lot
Thanks sir
Thank you sir, are you interested in giving 1 to 1 classes on PDE with numerical methods,Thank you
Yes, definitely.
Mail me at
keshav.jadhav@vpkbiet.org
keep it up bro
how would I do a finite difference approximation for a mixed partial derivative?
Sir , i watched your videos but i could not find what i need unfortunately.How can i contact to you?
in second order differential of U with respect to x ,denominator should be 2(h^2) since the total width is h+h
where i m going wrong sir
I think you might be using central difference for finding approximation for your
Sir please provide full course of numerical solution for pde
Thank for suggestions::
I will work on this.
I have following few more videos on PDE you can go through the same:
ua-cam.com/play/PLPS67918Zad0FQL_de274_U1Vq59HaaDp.html
Finite difference method or finite element method ak hi cheez hai?
FEM allows for flexible mesh generation, which is suitable for complex geometries.
FDM typically uses structured meshes with a uniform grid, which makes it simpler to implement but less flexible for complex geometries
love you sir
The explaination is very lucid, very much appreciated, can you also explain how PDEs are solved if we have the analytical dertivatives? Can you please share your email ID for further discussion?
sir plz can u explain how u took the third,fourth,fifth and so on .....all the iterations after 2nd iteration???
Dear Rahul,
I have used gauss seidal method for solving simultaneous equations.
You can refer my video at following link for details of gussa seidal method.
ua-cam.com/video/2TxH17U6WPU/v-deo.html
Too confusing