In the example, we use an electromagnetic wave, which is made up of photons with no rest mass. If you had massive particles (example, throwing bowling balls into water at an angle) the deflections would be very different due to the buoyant forces involved.
Thank you. Very usefull!
Nice practical way prof
Thanks, this was great! BTW, they are Neumann conditions, not "von" Neumann conditions. Different people.
Thanks, and it's so easy & simple!
Very well explained sir! Thank you!
Thank you a lot!
Very useful
how is this change of theta angle affected by mass?
In the example, we use an electromagnetic wave, which is made up of photons with no rest mass. If you had massive particles (example, throwing bowling balls into water at an angle) the deflections would be very different due to the buoyant forces involved.
@@DR_VIV Thanks. and is theta affected by frequency/wavelength?
@@theofficialjizzy only by wavelength. Frequency remains the same when you go from one refractive medium to another.
thanks man
Which pen you used??
There are so many questions about my pens over all these videos one day I swear I will make a video showing all the pens I use!
@@DR_VIV I used fountain pen but it's not good as yours... That's way...😅
@@Dharmesh_Kher I collect these things, I have hundreds of pens I am ashamed to admit….
@@DR_VIV Would love to see pen/ink video
Thank you sir. Are you a physicist?
Yes, I am!
Do you know what a convective boundary condition is?