also, when you break the bond, does that go back to the atomic orbital because they are not attracted anymore, or into the antibonding because the energy input to the system to break the bond actually causes the electrons to be in opping waveforms
Thanks to your videos I remembered what I needed to remember about chemistry and learned also some English (it is my second language). So nice lectures! Thank you! :D
when they come together to form the MO, isn't that decreasing entropy because bonds are forming? So the enthalpy (energy released) must be bigger than the ordering of the molecule in order to have a spontaneous reaction, correct?
AK LECTURES, the energy required to break the C--F bond is more than the energy to break the C--F bond, the virtical axis for Energy, the energy is bigger numbers and when goint down it is smaller numbers, so how can 110 kcal go down on the axis when 110 kcal is greater than 103 kCal, wouldn't it be better to say the delta E of C--F has a bigger difference than the delta E of C--H?
Your videos are the absolute best!
also, when you break the bond, does that go back to the atomic orbital because they are not attracted anymore, or into the antibonding because the energy input to the system to break the bond actually causes the electrons to be in opping waveforms
Thanks to your videos I remembered what I needed to remember about chemistry and learned also some English (it is my second language). So nice lectures! Thank you! :D
Patricia RR
All my doubts were cleared. Thank you very much.
Great job
when they come together to form the MO, isn't that decreasing entropy because bonds are forming? So the enthalpy (energy released) must be bigger than the ordering of the molecule in order to have a spontaneous reaction, correct?
AK LECTURES, the energy required to break the C--F bond is more than the energy to break the C--F bond, the virtical axis for Energy, the energy is bigger numbers and when goint down it is smaller numbers, so how can 110 kcal go down on the axis when 110 kcal is greater than 103 kCal, wouldn't it be better to say the delta E of C--F has a bigger difference than the delta E of C--H?
AK LECTURES, you say that you two identical H atoms but how can this be if the electrons have opposite spins?
What's difference between bond energy and bond dissociation energy?
Thank u so much sir , your explanation is extremely awesome. you have helped me alot ...☺☺
great
awww...so young in this one! UwU
P.S. all AK vids get 5 starts in my opinion
Sir video hindi me mil sakta h