Sir I have a doubt. Can we call Divergence as a "gradient" of Electric field (as it is the very same del operator here) by relating it to the previous video? I think I may sound odd here, but please tell me if I am missing something.
The divergence is a an operator that operates on a vector (field) and produces a scalar. A gradient is a vector operator that operates on a scalar and produces a vector.
@@MichelvanBiezen @9:41 sir, that later on is already been taking too long i think. :> (haha) .This video series about electromagnetics are extremely useful.. I wish u could find some time to add/create some videos to show some examples or discuss some important concepts... :> i really appreciate your effort on making these amazing videos..
This was such a clear explanation of this concept!
Thank you very much! Your videos have helped me quite a lot.
Thank you! Very nice explanation.
Mr. van Biezen thank you! great work
Great STUFF!!!
Glad you think so. 🙂
Keep the videos coming.
Sir I have a doubt. Can we call Divergence as a "gradient" of Electric field (as it is the very same del operator here) by relating it to the previous video? I think I may sound odd here, but please tell me if I am missing something.
The divergence is a an operator that operates on a vector (field) and produces a scalar. A gradient is a vector operator that operates on a scalar and produces a vector.
Ah! I get it. Thank you sir.
@@MichelvanBiezen @9:41 sir, that later on is already been taking too long i think. :> (haha) .This video series about electromagnetics are extremely useful.. I wish u could find some time to add/create some videos to show some examples or discuss some important concepts... :>
i really appreciate your effort on making these amazing videos..