thank you!! my chem teacher ran out of time for the equilibrium unit last year, but this helps me understand it even without her teaching. also, it's amazing that you have entire websites for biology & chemistry with free notes and quizzes! we need more teachers like you in the world :D
Thank you so much!! Very helpful! Do you have Patreon? I'd love to support this type of teaching as it's helping me so much in my Chemistry 112 course!
You're very welcome! No, I don't have a Patreon. The best way you can thank me, and help me keep these videos coming, is by learning as much chemistry as you can, and becoming the best chemist possible! 😊 And, of course, writing a Thank You here in the comments sections is of course a great way to support me as well!
No matter what the initial concentrations are, they change until the conditions in the relation _K_ = [products]/[reactants] are met. Please note that this can be done in infinitely many ways. If, for example _K_ = 0.5, this can be equal to both 1/2, 2/4, 0.68/1.36 and so on. This means that the _final_ concentrations will vary depending on the initial concentrations, but the value of _K_ will not. _K_ will remain constant for the given reaction.
Yes, this video is about the law of mass action. The law of mass action describes what happens when a reaction reaches or is at equilibrium, just as I state at 6:35.
thank you!!
my chem teacher ran out of time for the equilibrium unit last year, but this helps me understand it even without her teaching.
also, it's amazing that you have entire websites for biology & chemistry with free notes and quizzes! we need more teachers like you in the world :D
Thank you too! It's a pleasure this helps, and that you can use my notes and quizzes! 😊
You gave so much brilliant explanation, im stunned!!
Thanks, nice to hear it could be understood! 😊
underrated lecture...!!
Nice explanation..!!!
Thanks a lot! 😊
Best explanation I've seen. Thank you sir.
Thank you! 😊
Föredrog detta, var mycket lättare att hänga med och förstå. Tror jag är mer uppmärksam och alert när det är engelska.
What language is this,? I'm just curious
@@hanumavattem3106 swedish :)
@@ABZzEplaygames oh,cool I'll learn it someday
It's amazingly good the way you explain. I've been looking for this. Thanks!
You're welcome, I'm glad I could be of any help! 😊
Thanks a lot! You explained it in a very effective manner. Bless you.
Thank you, that's good to hear! 😊
Thank you so much!! Very helpful! Do you have Patreon? I'd love to support this type of teaching as it's helping me so much in my Chemistry 112 course!
You're very welcome! No, I don't have a Patreon. The best way you can thank me, and help me keep these videos coming, is by learning as much chemistry as you can, and becoming the best chemist possible! 😊 And, of course, writing a Thank You here in the comments sections is of course a great way to support me as well!
@@MagnusEhinger01 You're amazing brother! Thank you for helping. Support to you From Pakistan!
@@DanialYousaf-s6i My pleasure! 🙂
Very well explained!
Thank you! 😊
Good explanation sir
@@chinnamilkyboy4173 Thank you! 😊
It helps a lot😊
Thanks, it makes me happy to hear! 😊
how does the initial concentrations not effect the equilibrium constant?
No matter what the initial concentrations are, they change until the conditions in the relation _K_ = [products]/[reactants] are met. Please note that this can be done in infinitely many ways. If, for example _K_ = 0.5, this can be equal to both 1/2, 2/4, 0.68/1.36 and so on. This means that the _final_ concentrations will vary depending on the initial concentrations, but the value of _K_ will not. _K_ will remain constant for the given reaction.
P50
Pk formula
Henderson hasselbach equation
Chloride shift.
The law of mass action is the basis of which of the following? ( choose all that apply)
Thankyou🌟
You're welcome! 😊
Thank you so much Sir!
You're ever so welcome, it's a pleasure! 😊
Thank you very very much 😊
Very welcome! 😊
Very good video Mange ;)!
Thanks! 😊 (But I prefer "Magnus"…)
Thank You!
You're welcome! 😊
Isn’t the video about the LAW OF MASS ACTION
You only explained equilibrium
Yes, this video is about the law of mass action. The law of mass action describes what happens when a reaction reaches or is at equilibrium, just as I state at 6:35.
i would be better if u make your videos in english :)
They're coming, you just have to be patient… 😉