For the carbon atom, it looks like the 1s & 2s orbitals are the same, because, I only see 4 electrons drawn on your diagram, but your printed statement "1s^2,2s^2,2px^1,2py^1" contains six (6) electrons. Why is that? . . . but I still love your lectures! OK, nevermind, I see you didn't depict the 1s orbital. Nice job!
You are truly amazing,.
thank you for this amazing video. It has helped me to understand atomic orbitals so well.
+TheGabXD awsome!:)
Oh where were you , amazing teaching , thank god i found u
Oh my gosh please come teach my chem class. I will pay you.
Very nice for competitive exams..txx a lot.Be blesed
Thank you. Found it really helpful
Just started binge watching your videos. Really well done.
Question: Where would the nodes and anti-nodes be in the s-orbital?
There are no nodes in the s orbitals because of their circular shape.
My lifesaver and angel
perfect as expected.
Awesome stuff
thank you for this Sir
you related Bohr and Schrodinger equations beautifully. nice.
thank you :)
8:15 in. dude you are so good
beautiful
For the carbon atom, it looks like the 1s & 2s orbitals are the same, because, I only see 4 electrons drawn on your diagram, but your printed statement "1s^2,2s^2,2px^1,2py^1" contains six (6) electrons. Why is that? . . . but I still love your lectures! OK, nevermind, I see you didn't depict the 1s orbital. Nice job!
why aren't the blue p orbitals filled?
it can be anywhere in the orbital
@@takashgon6691 so the electrons can be distributed among the green and blue areas as well (i.e., one in blue and one in green)?
@@dominicjose1116 I assume yes? Not sure.
:) thank you !
great hair hhhhh
Schroeginger :D