Thank you so much for posting this!!!! You have no idea how helpful this is!!!!! Quick question....how did you come up with the +/- 61 when using the Nernst Equation?
You are welcome, I'm glad this helped. The first part of the Nernst equation is about figuring out the environment the ions are located in, which as you know will affect diffusion rates. So after you calculate temperature, use Faraday's constant etc. you come up with this number. Now this number can be variable depending on what organism you are looking at and different lab settings as well. Make sense?
thanks very much for all your hard work! its greatly appreciated. anychance you can write an exam or two in my stead?
MrDvossepoel 2 months ago in playlist More videos from bullharrier
You do such a good job teaching this. Much better than what I got in class.
DeltaNordicAdvance 3 months ago in playlist More videos from bullharrier
you have no idea how helpfull you are Thank you very much
Tpainkiller21 5 months ago
@Tpainkiller21
Based on all the compliments I'm starting to get an idea. You are very welcome, I'm glad this helped and keep working hard.
bullharrier 4 months ago
Thank you so much for posting this!!!! You have no idea how helpful this is!!!!! Quick question....how did you come up with the +/- 61 when using the Nernst Equation?
sweetpea32871 11 months ago
@sweetpea32871
You are welcome, I'm glad this helped. The first part of the Nernst equation is about figuring out the environment the ions are located in, which as you know will affect diffusion rates. So after you calculate temperature, use Faraday's constant etc. you come up with this number. Now this number can be variable depending on what organism you are looking at and different lab settings as well. Make sense?
bullharrier 11 months ago
@bullharrier Oh ok, I wasn't sure if it was a constant or not. Thank you :- )
sweetpea32871 11 months ago