Donnan Equilibrium? Driving Force? What in the world do those things mean? Well, you’re about to find out. In this video I explain the concept of Donnan equilibrium and show how that leads to the Driving Force that’s responsible for generating an Action Potential, otherwise known as the Nerve Impulse. If you want to know even more details about Donnan Equilibrium, check out my Notes on the Nervous System.
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nice work man.well done.it was well-organized.where can i fing the other episodes?
And i was wondering.i am confused on smthing.What is the exact difference between Nerst equation Goldmans equation and Donnan equilibrium?because i dont understand clearly what each one talks about.thanx in advance.
@mazas1991
I will be working on more episodes pretty soon, but will be stepping back and starting with basic stuff.
To answer your question, the Nernst equation is the formula used to calculate the Equilibrium potential for an individual ion (e.g. sodium).
Donnan Equilibrium is similar to the Equilibrium potential.
Goldman’s equation takes all of the ions into consideration and allows you to calculate the membrane potential of the neuron.
Hope that helps!
Leslie
@InteractiveBiology thanx very much…yeap it did but i read so many stuff about it that i got confused a bit..if u can, leave an msn or fb or something so i can ask u online some questions that still confuse me..because i have an exam in 1 week so i would appreciate sooooooo much…so if u have time and will hit me up with a message or answer to this comment.thank you very very much in advance.
thanx very much…yeap it did but i read so many stuff about it that i got confused a bit..if u can, leave an msn or fb or something so i can ask u online some questions that still confuse me..because i have an exam in 1 week so i would appreciate sooooooo much…so if u have time and will hit me up with a message or answer to this comment.thank you very very much in advance.
@mazas1991 The best way to contact me is to use the link in the description of the video. It goes to my Interactive Biology website. There’s also a link to my facebook page on that site.
All the best!
The best way to contact me is to use the link in the description of the video. It goes to my Interactive Biology website. There’s also a link to my facebook page on that site.
All the best!
@InteractiveBiology i did it.is there anyway to talk via chat ? thanks
i did it.is there anyway to talk via chat ? thanks
@mazas1991 Yeah, depending on my time availability. Send me a message and we can go from there. I don’t post that info publicly on youtube for the fear of spam 🙂
Yeah, depending on my time availability. Send me a message and we can go from there. I don’t post that info publicly on youtube for the fear of spam 🙂
@InteractiveBiology yeah its better this way.could you send me a message so i can reply because i dont know how to do it plz :S
yeah its better this way.could you send me a message so i can reply because i dont know how to do it plz :S
@mazas1991 Like I said, send me a message from my website. Go to the site and click on the contact link. You can send any message from there
Like I said, send me a message from my website. Go to the site and click on the contact link. You can send any message from there
nice work man.well done.it was well-organized.where can i fing the other episodes?
And i was wondering.i am confused on smthing.What is the exact difference between Nerst equation Goldmans equation and Donnan equilibrium?because i dont understand clearly what each one talks about.thanx in advance.
@InteractiveBiology i posted in ur page on facebook.this is me.
i posted in ur page on facebook.this is me.
@mazas1991
I will be working on more episodes pretty soon, but will be stepping back and starting with basic stuff.
To answer your question, the Nernst equation is the formula used to calculate the Equilibrium potential for an individual ion (e.g. sodium).
Donnan Equilibrium is similar to the Equilibrium potential.
Goldman’s equation takes all of the ions into consideration and allows you to calculate the membrane potential of the neuron.
Hope that helps!
Leslie
thanx very much…yeap it did but i read so many stuff about it that i got confused a bit..if u can, leave an msn or fb or something so i can ask u online some questions that still confuse me..because i have an exam in 1 week so i would appreciate sooooooo much…so if u have time and will hit me up with a message or answer to this comment.thank you very very much in advance.
The best way to contact me is to use the link in the description of the video. It goes to my Interactive Biology website. There’s also a link to my facebook page on that site.
All the best!
i did it.is there anyway to talk via chat ? thanks
Yeah, depending on my time availability. Send me a message and we can go from there. I don’t post that info publicly on youtube for the fear of spam 🙂
yeah its better this way.could you send me a message so i can reply because i dont know how to do it plz :S
Like I said, send me a message from my website. Go to the site and click on the contact link. You can send any message from there
i posted in ur page on facebook.this is me.
Its a lovely video with real life example given. Thumbs Up.
@rohanaurora Thanks a bunch. Glad you are enjoying the videos. Stay subscribed for more 🙂
Thanks a bunch. Glad you are enjoying the videos. Stay subscribed for more 🙂
Its a lovely video with real life example given. Thumbs Up.
Its a lovely video with real life example given. Thumbs Up.
Thanks a bunch. Glad you are enjoying the videos. Stay subscribed for more 🙂
Correct me if I’m wrong but should Donnan equilibrium require at least two permeable ions and one non-permeable anion on either side?
Correct me if I’m wrong but shouldn’t Donnan equilibrium require at least two permeable ions and one non-permeable anion on either side?
Correct me if I’m wrong but shouldn’t Donnan equilibrium require at least two permeable ions and one non-permeable anion on either side?
@Tapahtumahorisontti Not sure about that one.
Not sure about that one.
Not sure about that one.
isnt sodium moving into the cell because of concentration gradient? and its being stopped by its charge potential?
isnt sodium moving into the cell because of concentration gradient? and its being stopped by its charge potential?
@ediniz101 Yes, that can happen depending on the conditions.
Yes, that can happen depending on the conditions.
Yes, that can happen depending on the conditions.
Can someone explain me why we say that sodium is at is own equilibrium’??
when we consider only K+ and Na+ we say that there s no equilibrium , coz we say that membrane potentiale isnt an equilibrium potential ..am i wrong??in fact in the membrane state of rest there s flow of Na+ trhought the membrane to the inner surface of the membrane..
@selenaddict The statement I think I made was that the Membrane potential is at the Equilibrium potential for Sodium. Not 100% sure what you are asking though.
The statement I think I made was that the Membrane potential is at the Equilibrium potential for Sodium. Not 100% sure what you are asking though.
Can someone explain me why we say that sodium is at is own equilibrium’??
when we consider only K+ and Na+ we say that there s no equilibrium , coz we say that membrane potentiale isnt an equilibrium potential ..am i wrong??in fact in the membrane state of rest there s flow of Na+ trhought the membrane to the inner surface of the membrane..
The statement I think I made was that the Membrane potential is at the Equilibrium potential for Sodium. Not 100% sure what you are asking though.
very useful video…thanks
@aboylikeyou88 You are very much welcome!
You are very much welcome!
You are very much welcome!
TERRIBLE puns XD but a really helpful video. Thank you 🙂
@Praw48 LOL, terrible puns are the best puns 😉
LOL, terrible puns are the best puns 😉
TERRIBLE puns XD but a really helpful video. Thank you 🙂
LOL, terrible puns are the best puns 😉
love the style of your vids
love the style of your vids
Bad video …some mistakes
Bad video …some mistakes
Bad video …some mistakes
What is Actin and Myosin in simple language? What are their roles and uses in our body especially muscle?
Watch this video – https://interactivebiology.com/2133/043-the-details-of-muscle-contraction/
You mentioned that the Na+ needs to reach a donnan equilibrium of 58MV, and when it is not near the resting membrane potential state of -50 to -80MV, the NA+ feels uncomfortable. Thus, causing sodium ions to rush into the cell. However, how does rushing into the cell make it “positive?” I thought the point of sodium to move into the cell was to become more comfortable, which meant reaching -50 to -80MV?
Thank you in advance!
for questions about the define 58mV, look at the netnst equation 😉
for questions about the define 58mV, look at the netnst equation 😉
such a happy video !
the visuals really help me to remember the facts ! . Thank you for making them 😀 !
such a happy video !
the visuals really help me to remember the facts ! . Thank you for making them 😀 !
Thank you! Your excellent!
Sir you are really awasum….Salute to u…Thnx for ur great help….