@@PsychExplained AGREE! I am doing a degree in neuroscience and can't understand a thing the professor is talking about. Very grateful for your videos!
OMG SALTY BANANA!!!!!!!!!!!!!!!!!!!!!!!!!! I literally constantly forget what’s high on the inside and what’s high on the outside. Now I’ll never forget. Thank you!
🧂🍌 Na+ K+ ATPase love your videos ❤ Dr. Kushner 🥼👩🏽🔬 this was so easy to understand because you draw it and break it down. Great graphics Salty Banana 🧂🍌 pouring salt all over the banana and remember -70 to +55 then resting
After years of reading AP over and and over, watching multiple videos, making notes for 1000th time.. this video finally taught AP without having to mug up😭😭🙌🏼🙌🏼
Amazing Teacher, honestly not only did I learn more about Neurons but I also learned how to teach in a more clear fashion by watching how you explain things
I needed to draw a cartoon with the steps and your video made the HW easy! Easy steps great drawing and perfect memory techniques. Met and exceeds all expectations
OMG!!! thanks very much for this! I have never commented on any video on TH-cam....but i think this video triggers me, it's well explained. THANK AGAIN!!
I just finished watching the video, I haven't even opened my notes yet because this guy deserves this comment. BEST video ever, your page is my go-to. THANK YOU for explaining it so easily, my 1 hour and 15 minute lecture didn't explain it as well as your 12 minutes did!!
I'm a first year med student and this video helped me a lot!! Thank you for explaining very clearly. The banana reference is very clever. Now, I'll never forget the arrangement of ions during resting potential!
Thank you for the very well put explanation. The only thing, however, you didn't mention was the sodium-potassium pump, which is what allows the neuron to return to the resting stage after being hyperpolarized!
Your energy is everything and so are your teaching skills! God bless you! Thanks a lot. Doing my nursing degree and needed to understand this well!! Everything you said helped a lot🙏🏾💕
I love the way that you explain things ! a person who even dose not have science background can totally understand it and that is amazing ! keep spoiling us with your videos
Fantastique! = +-+-+-+-+-+- ... I recently learned that due to a violent upbringing I have premature myelination and four other premature stuff that went on at a microscopic level within me. I was left with axons looking as if they were pumped up on steroids due to development adaptation. This vid has just given the nitty gritty to my external potential. Look out bad world, the Hulk lives. THANK YOU Doc.
Yo I don't know if you still make videos but keep it up! I'm taking AP Psychology right now and you have hands down the clearest and most thorough explanations I have seen yet. It hits that sweet spot between simple to understand and complex enough to contain all necessary detail. Thank you and I would really appreciate if you were to post more.
Appreciate the kind words! It may surprise you but I teach high school AP Psychology. These videos are for you, and helping you earn that 5! Many more to come.
I went over this topic in my psychology book over and over and over and jus couldn't get it. 12minutes after watching this and I finally understood!! thank you so much
Again thanks so much for the detailed yet not overcomplicated explanations. The visuals really help me relate math and science together something I normally struggle with a lot.
Your a life saver i have a test tomorrow for AP Psyche about action potential and i didnt understand anything about it when my teacher was reviewing notes 😅 thank you
I'm a first year uni student and I've been looking for videos explaining this concept. This was perfect and really easy to grasp, you just gained a new subscriber. thank you
You are teaching me also English! Keep going men. Please more on statistics (null hypothesis, regressions) and physiology (muscle function, muscle damage).
This makes so much more sense now! Thank you! I am taking psychopharmacology and sometimes the readings just blur together. The visuals and concepts used (salty banana and toilet refractory phase) just helps tremendously! I am now a forever subscriber!! Thank you- I will watch all your videos
The resting membrane potential of approximately -70 millivolts (mV) inside a neuron at rest is primarily due to the differential distribution of ions across the cell membrane, particularly potassium (K+) and sodium (Na+), as well as the selective permeability of the membrane to these ions.
Thanks, good explination! But what happens afterward because this time all the K+ is outside and Na+ is inside. The normal position was the opposite (K+ were inside and Na+ were outside).
Potassium channels open in response to depolarization, allowing potassium ions to move out of the cell down their concentration gradient. This efflux of potassium ions helps restore the negative charge inside the cell. Sodium channels that opened during depolarization begin to close, reducing the influx of sodium ions into the cell. This decreases the positive charge inside the cell. As a result of these processes, the ion gradients across the cell membrane gradually return to their resting state, with potassium ions predominantly inside the cell and sodium ions predominantly outside. This restoration of ion gradients allows the neuron to prepare for subsequent action potentials and maintain its resting membrane potential.
Sir yor explanation of the action potential was very good, but you did not explain how the amount of sodium on the outside and potassium on the inside return to normal.
Repolarization - brings the cell back to resting potential. The inactivation gates of the sodium channels close, stopping the inward rush of positive ions. At the same time, the potassium channels open.
Sir you explained really well but Kindly tell me why chloride ions didn't play that much role in action potential though they are also present in this process? kindly Explain.
Many thanks for your really clear explanation. I just have a question. When the neuron is hyperpolaraized and is full of Na+ ions and has lost K+ ions, how does it get back to the resting potential? Do gates open to eject the Na+ ions and allow K+ ions back in or is the cell wall leaky and just allows the Na+ ions to escape gradually and allow K+ ions back in?
wow you deserve the Nobel prize for most clear understanding of an action potential.
Much appreciated 🏆 😀
@@PsychExplained AGREE! I am doing a degree in neuroscience and can't understand a thing the professor is talking about. Very grateful for your videos!
Literally this!! Summed up everything that a 3 hour lecture confused 😊
OMG SALTY BANANA!!!!!!!!!!!!!!!!!!!!!!!!!! I literally constantly forget what’s high on the inside and what’s high on the outside. Now I’ll never forget. Thank you!
It’s all about the mnemonics 😊
@PsychExplained You're doing the LLOYDS work! Keep it up! Looking forward to watching more videos.
🧂🍌 Na+ K+ ATPase love your videos ❤ Dr. Kushner 🥼👩🏽🔬 this was so easy to understand because you draw it and break it down. Great graphics Salty Banana 🧂🍌 pouring salt all over the banana and remember -70 to +55 then resting
A banana in the ocean was the first one I heard!
After years of reading AP over and and over, watching multiple videos, making notes for 1000th time.. this video finally taught AP without having to mug up😭😭🙌🏼🙌🏼
Happy to help 🤓
YES
Well after studying that topic after a long time you already know the concept and this video just makes it clearer
Amazing Teacher, honestly not only did I learn more about Neurons but I also learned how to teach in a more clear fashion by watching how you explain things
Thank you so much for your kind words!
geniunely this is the best video I've seen on action potential. You made it so simple and I really appreciate that.
rightttttt
Wow, thanks! 🙏🏻
I needed to draw a cartoon with the steps and your video made the HW easy! Easy steps great drawing and perfect memory techniques. Met and exceeds all expectations
OMG!!! thanks very much for this! I have never commented on any video on TH-cam....but i think this video triggers me, it's well explained. THANK AGAIN!!
This is the only person who actually helped me understand this concept.
In physio psychology introductory class best explanation I have ever seen
❤😅right! Wish he was my profe!!!👨🏽🔬🥼
This is THE best explanation I've seen of this concept on youtube omg
Thank you 😊
This man was MADE to teach, God bless you
THE BEST, most comprehensible explanation I've seen of this process. My immense gratitude.
Glad it was helpful!
The best video i have seen so far on action potential thank you so much.
Too kind. Glad it helped 🧠
I just finished watching the video, I haven't even opened my notes yet because this guy deserves this comment. BEST video ever, your page is my go-to. THANK YOU for explaining it so easily, my 1 hour and 15 minute lecture didn't explain it as well as your 12 minutes did!!
You're the best!
I have been trying to understand AP for a year and I finally do now thanks to this video!!! Thank you!!!
That’s so great to hear! Happy to help 😊
This video is life-changing 😊! Thanks so much for the detailed drawing and steps!
So happy to help!
I'm a first year med student and this video helped me a lot!! Thank you for explaining very clearly. The banana reference is very clever. Now, I'll never forget the arrangement of ions during resting potential!
Wonderful!!
wow I was so confused on action potential and you made it so clear and understanding without using so much terminology! Thank you!!!!!!!!!!!
You're very welcome!
Your video in 1.25 speed was the best explanation of this process! Thank you
Glad it was helpful!
This video just made me get fired up for my test ❤️🔥🔥🔥 thank you 🙏🏾
Love the pun!! Good luck 👍
I tried countless videos to try understanding action potential, THANK YOU THANK YOU SO MUCH
Thank you for the very well put explanation. The only thing, however, you didn't mention was the sodium-potassium pump, which is what allows the neuron to return to the resting stage after being hyperpolarized!
Wonderful! Great pick up
Your energy is everything and so are your teaching skills! God bless you! Thanks a lot. Doing my nursing degree and needed to understand this well!! Everything you said helped a lot🙏🏾💕
Wonderful! Nurses are amazing. Enjoy the journey :)
I love the way that you explain things ! a person who even dose not have science background can totally understand it and that is amazing ! keep spoiling us with your videos
Happy to help! 😎😎
Fantastique! = +-+-+-+-+-+- ... I recently learned that due to a violent upbringing I have premature myelination and four other premature stuff that went on at a microscopic level within me. I was left with axons looking as if they were pumped up on steroids due to development adaptation. This vid has just given the nitty gritty to my external potential. Look out bad world, the Hulk lives. THANK YOU Doc.
Thank you for explaining it to me in simple and understandable way
Glad it was helpful!
Yo I don't know if you still make videos but keep it up! I'm taking AP Psychology right now and you have hands down the clearest and most thorough explanations I have seen yet. It hits that sweet spot between simple to understand and complex enough to contain all necessary detail.
Thank you and I would really appreciate if you were to post more.
Appreciate the kind words! It may surprise you but I teach high school AP Psychology. These videos are for you, and helping you earn that 5! Many more to come.
@@PsychExplained 😊
I went over this topic in my psychology book over and over and over and jus couldn't get it. 12minutes after watching this and I finally understood!! thank you so much
Excellent!
This video saved my life. Thank you for all the work that you do!!
You are so welcome!🙏🏻
This man is a fxxxing genius. Ever so grateful for this channel!
Excellent ! Thank you for your clear, clear, and easy explanation. A BIG THANK YOU!
Glad it was helpful!
Again thanks so much for the detailed yet not overcomplicated explanations. The visuals really help me relate math and science together something I normally struggle with a lot.
confused myself over the slides for an hour and learned in your video within 12 mins. nice job mahn
This is awesome to hear 😎
Your a life saver i have a test tomorrow for AP Psyche about action potential and i didnt understand anything about it when my teacher was reviewing notes 😅 thank you
My teacher took 3 hours to explain this and still I was confused, YOU ARE A GREAT TEACHER 🙌🏻
thankx finally somone explained what cause the hypopolarization .
Your explanation more clearly than my prof 😭 thank you , bless you teacher
Happy to help! 😇
I'm a first year uni student and I've been looking for videos explaining this concept. This was perfect and really easy to grasp, you just gained a new subscriber. thank you
Glad it was helpful!
Thank u so much for these lessons as a polish nursing student 💉
You are teaching me also English! Keep going men. Please more on statistics (null hypothesis, regressions) and physiology (muscle function, muscle damage).
More to come!
this concept was always so confusing but this video really helped put everything in perspective! thank you🙏🏼
beter than 2 hrs lecture of my teacher
Glad to hear!
Oh my gosh! Thank you! I finally understand the concept!!!
So glad to hear! I love those “ah-ha” learning moments :)
This makes so much more sense now! Thank you! I am taking psychopharmacology and sometimes the readings just blur together. The visuals and concepts used (salty banana and toilet refractory phase) just helps tremendously! I am now a forever subscriber!! Thank you- I will watch all your videos
Wonderful! Thank you for the kind words. Happy learning 🧠 📚 ✏️
unbeliveble, how good are the explanations
The best explanation so far be blessed.
Wow, thank you!
THIS IS THE BESTTTTTT EXPLANATION EVERRRRRRRR.
Aw thank you. Happy learning 😀
Thank you! Love the analogies and the color coding. The explanation was very clear!
Glad it was helpful!
I just watched another video of yours. I wish I had seen your videos 3 weeks ago. Great job, best explanation.
Glad you like them! 🤓🤓🤓
Thanks! At last, I'm beginning to understand the process
Glad it helped!
Taught me more than my professor in this video!! Thank you. Please more videos on nervous system or endocrine
Will do!
@@PsychExplained just finished endocrine. Thank you anyway! any videos on the cardiovascular or skeletal muscle?
@@daisymarquez7668 check out Siebert Science! He has great videos on these topics.
@@PsychExplained okay thank you!!
THANK YOU FOR EVEEEERYTHING.I’m so happy that I found this channel.Please keep going 🫶🏼
agreed
You save my life. Thank you so much
Happy to help
you are the best teacher
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Happy to help 😎
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Appreciate the message 😇
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Thank you! 😃
I GENUINELY FEEL SO HAPPY WATCHING THIS THANKSYOU SIR this us genuinely the best of the bestes explanation ever
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I did not understand this at all until I saw this video. thank you so much 😭
That’s awesome! Your neurons are firing 😎
Saved me 🙏🙏 made something that seemed impossible to understand to now something I feel familiar with 😭
Thank you very much, this is the best video and I now understand the action potential
You are welcome!🙏🏻
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Glad it helped !!!
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Glad it was helpful!
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Thank you 🙏🏻
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Glad it was helpful!
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Glad to hear!
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Thanks you
You made this easy .
First time to understand it
Glad it helped!
I love you dude. saved my life
Love you too 😉
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Thanks for subbing!
Really well explained 👍
Thank you 🙂
Easy to understand - Great
Glad you think so!
Thank you so much sir. This is so helpful and clear🙏
You are most welcome
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I'm so glad!
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Thank you for the support!
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Welcome aboard!
Best of the best I know this process now thank you so much🙏🙏🙏
Most welcome 😊
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Thank you for watching!
Why is the voltage at -70 inside at the start? If potassium is positive, what else is in the neuron that's so negative? Great video btw, thank you!
The resting membrane potential of approximately -70 millivolts (mV) inside a neuron at rest is primarily due to the differential distribution of ions across the cell membrane, particularly potassium (K+) and sodium (Na+), as well as the selective permeability of the membrane to these ions.
thank you for explain it so easy to understand, Sir.
So nice of you
Amazing video thank you so much!
You're so welcome!
Thank you so much. It's clear and exciting.
Glad it was helpful!
Thanks, good explination! But what happens afterward because this time all the K+ is outside and Na+ is inside. The normal position was the opposite (K+ were inside and Na+ were outside).
asking the same question
Potassium channels open in response to depolarization, allowing potassium ions to move out of the cell down their concentration gradient. This efflux of potassium ions helps restore the negative charge inside the cell. Sodium channels that opened during depolarization begin to close, reducing the influx of sodium ions into the cell. This decreases the positive charge inside the cell. As a result of these processes, the ion gradients across the cell membrane gradually return to their resting state, with potassium ions predominantly inside the cell and sodium ions predominantly outside. This restoration of ion gradients allows the neuron to prepare for subsequent action potentials and maintain its resting membrane potential.
Sir yor explanation of the action potential was very good, but you did not explain how the amount of sodium on the outside and potassium on the inside return to normal.
Repolarization - brings the cell back to resting potential. The inactivation gates of the sodium channels close, stopping the inward rush of positive ions. At the same time, the potassium channels open.
Amazing! Thank you
My pleasure!
Very helpful! I subscribed
Wonderful!
Wow thank you for making this easy for me
My pleasure 😊
I love you thank you for saving my grade
Love it !!😊
Sir you explained really well but Kindly tell me why chloride ions didn't play that much role in action potential though they are also present in this process? kindly Explain.
They play a major role at the synaptic bulb (axon terminal). I will touch on this more in my next video on neural transmission ⚡️⚡️⚡️⚡️⚡️
Outstanding work very nice helped alot 😊😊😊 thanks
Awesome 😎
this is just amazing. thank u sooo much!!!!
You're so welcome!😀
Many thanks for your really clear explanation. I just have a question. When the neuron is hyperpolaraized and is full of Na+ ions and has lost K+ ions, how does it get back to the resting potential? Do gates open to eject the Na+ ions and allow K+ ions back in or is the cell wall leaky and just allows the Na+ ions to escape gradually and allow K+ ions back in?
Thank you ,,you earned a subscriber what a good explanation 😊
That's awesome!😁
Please make videos on sensation and perception.
Best explanation 😊