i am a student from germany and i find it funny how instead of using german sources to study neuroscience for my biology class i decide to watch videos in my non-native language because they are way more easier to follow. love you man
This is fantastic. I somehow snagged a research job relating to building sensors for the brain as a mechanical engineering undergrad, and when things became more about understanding chemistry than building the device itself, I was pretty lost. I should clarify I still am. But videos like these really do help slowly improve things.
These are always so so helpful and clear - I come back to them year after year and appreciate all the hard work that goes into them!!! Thank you so so much!
The commercial was longer than the video haha. But I watched the whole thing because I appreciate these videos and want to reciprocate in some way :). Keep up the Good work!
Why there are so fucking little views? It's one of the best on-ramp neurosciense cources for non-professionals, it's well-organised and has some depth. p.s. salutations from Russia)
You deserve more views man, you explain this so well even my teacher links us your videos (and we aren't even at an english speaking country in my case) :D Cheers!
Pretty good, too simple and lacks further details if one is a college student and is learning this for biology course. I don't mean to undermine your work though, infact it's perfect if someone is trying to grasp the basics. Cheers.
I like your video thanks. It was super annoying though when I tried backing up 20 seconds to hear it again and your merch ad was right in the way. Do better YT
I have a question. If the RMP is -70 and the K+ channels are opened, how would the K+ move? Into or out of the cell? And also would the membrane potential become more or less negative?
Hi. I have a question. If at rest, the outside of the membrane contains Na+ why do you say that the Na+ has to go outside to make It negative, if it’s already outside. Should not be the K+ going from inside out to make it negative? It would really help me if u explain it that, please.
Yes, if there were no work being done to move Na+ ions then those that were inside the cell would remain there because there wouldn't be any forces (e.g. due to separation of charge and concentration gradient) working to push them out of the cell. But what I refer to in the video is a protein pump (Na-K pump) that requires energy to work. It actively moves sodium against its concentration gradient, to the outside of the cell. This helps to maintain the cell's resting membrane potential. The K+ moves much more freely across the cell membrane until it has reached a balance based on charge and concentration gradient.
I have a question, Why is the neuron more negatively charged when the neuron is at rest? I'm a complete newbie and i am struggling to understand it... If when the neuron is at rest and there are both positively charged and negatively charged ions both inside and outside the neuron, why is it more negatively charged than the outside?
there are less positively charged ions inside the cell and more positive ions outside, so overall the inside of the cell is more "negative" than the outside
I am not an English speaker, too. I use two techniques to cope with fast-speaking videos: 1. From the setting buttom, you can choose playback option and lower down the speed. 2. You can use "cc" buttom to see the transcript. Hope it helps
This is an absolute Oasis for psychology students tryna learn neuroscience..
Also for applicants to MA in Cognitive Science whose BA is not in psychology or neuroscience i.e: me. This is incredibly helpful.
😂😂
Facts
so real
is bullshit
i am a student from germany and i find it funny how instead of using german sources to study neuroscience for my biology class i decide to watch videos in my non-native language because they are way more easier to follow. love you man
Same here though i am from algeria and learning science with arab is realy hard
Attended my 90 minute lecture on this topic, was left completely confused. Watched this 2 minute video, completely understood :0
2 minute video is better than 90 minute lecture!
This is fantastic. I somehow snagged a research job relating to building sensors for the brain as a mechanical engineering undergrad, and when things became more about understanding chemistry than building the device itself, I was pretty lost. I should clarify I still am. But videos like these really do help slowly improve things.
These are always so so helpful and clear - I come back to them year after year and appreciate all the hard work that goes into them!!! Thank you so so much!
Hey I know you :)
The commercial was longer than the video haha. But I watched the whole thing because I appreciate these videos and want to reciprocate in some way :). Keep up the Good work!
I started my psychology degree lately and your Videos help me so much thank you!!!!
BRO SLAYED IT I WAS BANGING MY HEAD WITH WALL past 1 hour but now its cleared so easliy in JUST 2 Min WOW
These are great! Why aren't my lecturers this easy to follow!
Seriously lecturers aren't easy to follow
I was confused
admire your simplicity in explaining complex structures into manageable sections 😁🥰
Why there are so fucking little views? It's one of the best on-ramp neurosciense cources for non-professionals, it's well-organised and has some depth.
p.s. salutations from Russia)
Thanks and salutations!
Crazy just learned everything for my class in 2 minutes while my school teacher didn’t manage in 2 hours. Thank you man.
Your videos are helping me study for my psych exam tomorrow. Thank you!!
Jennifer Carpio psych?
@@pigopal3 Yes she means Biological Psychology. I'm also taking the class.
Why can’t my professor be this clear lmao thank you
OGaEIi قبل
Am I the only one who had to listen to this 6 times before I got it?😂what an add noob I am.
Ty for this!❤
Omg german subtitle TYSM ur helping me alot going trough my exams in biology
Excellent! Thanks for the simple explanation
thanks for saving my life before the final exam :))))))))))))))))))))))))
this guy the goat fr
this is so helpful as a refresher for my final !! bLess you and your 2 mins
You deserve more views man, you explain this so well even my teacher links us your videos (and we aren't even at an english speaking country in my case) :D Cheers!
My new favorite channel
V nice and concise explanation. Thank you
Thank you so much for these amazing videos.
Pretty good, too simple and lacks further details if one is a college student and is learning this for biology course. I don't mean to undermine your work though, infact it's perfect if someone is trying to grasp the basics. Cheers.
I also have a more complete explanation on my channel: ruclips.net/video/TUOSCEVt6HI/видео.htmlsi=nEoS_ZREfPAI7MsN
Excellent discussion. Thank you very much.
God bless you!
These are great! Thank you so much!
very helpful. thanks!
Thank you 😊
Wonderful 👍 short n sweet explanation 🙏
Hi there, could you do a video on GRADED potentials as well? Thanks.
I like your video thanks.
It was super annoying though when I tried backing up 20 seconds to hear it again and your merch ad was right in the way. Do better YT
I have a question. If the RMP is -70 and the K+ channels are opened, how would the K+ move? Into or out of the cell? And also would the membrane potential become more or less negative?
K+ would move out; more negative membrane potential
Hi. I have a question. If at rest, the outside of the membrane contains Na+ why do you say that the Na+ has to go outside to make It negative, if it’s already outside. Should not be the K+ going from inside out to make it negative? It would really help me if u explain it that, please.
Yes, if there were no work being done to move Na+ ions then those that were inside the cell would remain there because there wouldn't be any forces (e.g. due to separation of charge and concentration gradient) working to push them out of the cell. But what I refer to in the video is a protein pump (Na-K pump) that requires energy to work. It actively moves sodium against its concentration gradient, to the outside of the cell. This helps to maintain the cell's resting membrane potential. The K+ moves much more freely across the cell membrane until it has reached a balance based on charge and concentration gradient.
Thank you for the video. But Im confused in terms of what makes the inside of the cell MORE NEGATIVE compared to the outer cell? TYSM
I explain it in much more detail in this video: ruclips.net/video/TUOSCEVt6HI/видео.html
This is great! thank youuuu!
Can you give a deffinition to electric potential?
Thank You so much!!!
Thank you!
Thanks!
I love you. Thank you
Slow down speedy. I had to rewind 6 times for each concept….but I got it
One second overtime :P. Oh well, great job anyway!
God bless
blackpink in your area
Thx alot🌸
Since there is more potassium inside the cell and more sodium outside wouldn't the cell 3 sodium go in and the 2 potassium go out?
Not to be that guy but the video is EXACTLY 2:01 seconds. This is targeting my neuronic activity bro
I have a question, Why is the neuron more negatively charged when the neuron is at rest? I'm a complete newbie and i am struggling to understand it... If when the neuron is at rest and there are both positively charged and negatively charged ions both inside and outside the neuron, why is it more negatively charged than the outside?
there are less positively charged ions inside the cell and more positive ions outside, so overall the inside of the cell is more "negative" than the outside
🇮🇳🇮🇳 live long India ❤❤
is that a real hand coming in and out of the frame writing? because them some dang straight arrows and neat letters
does na-k pump get inactive when the cell is not fired ? or does it always pump when still alive ? is inactivation of the pump making the cell dead ?
the cell doesnt die, the na-k pumps whenever the cell needs to restore the ions back to being more positive on the outside and negative inside.
yes !
Mi like y agradecimientos a usted.
I love you
🙏🙏🙏
nooooo your video is 2 minutes and a second long
Bliss.
🙏🙏🙏🙏🙏🙏
I still don't know what the fuck is going on
Why u talk so fast 😥
Because is 2 minutes
I am not an English speaker, too. I use two techniques to cope with fast-speaking videos:
1. From the setting buttom, you can choose playback option and lower down the speed.
2. You can use "cc" buttom to see the transcript.
Hope it helps
Aachooooooo
material is good...but voice is so impartial and careless that the whole effect is lost...it's like you read RAP or hip-hop)))
Thanks !