Man, your explanations are so on point, next level even. It's funny and interesting to watch, and you explain in a way that is very easy to understand. Thanks for the great job everyone of you in Khan Academy are doing!
Hey i got a question in 4:43 he says the electrons are stuck there in the insulator .actually where does he exactly explain why? I mean why these extra charges we added can not move??what stops them
One question: if you didn't cut the connecting wire to the ground, then would the charges on the conductor still redistribute themselves? If so, am I correct to assume that then electrons would move from the ground to the conductor to neutralise its charge and be grounded again?
Pretty good explanations but don't feel bad if you tend to get a bit confused because David keeps switching between different definitions for things. i.e. when discussing negative charge he starts using electrons interchangeably when an electron is NOT a negative charge, an electrical is a particle that HAS the property of charge that is negative.
Excellent Lecture. Thank you. Question? Vacuum is an insulator, correct? Then how come a beam of electrons were moving from anode to cathode in the vacuum tube of the JJ Tomson experiment? Thank you
Not that I'm complaining really, I think this was a great video, but what does this have to do with medicine? Seems kind of off topic given the subject material of this channel.
Plz make a video about how a battery creates a potential difference. Make video and plzzzzz teach in detail because I love to know about all these things
At 6:10 The negative charges just move to the edges only due to escape repulsion but if more negative charges are added to the conductor, won't the negative charges on the edges be closer enough to repel eachother?
Even if the amount of charge increases, they'll still repel and be closer than what was in the video since there's more charge. Is that what you were referring to?
Insulators can be negatively charged by adding electrons. The electrons then will be stuck. But how can insulators be positively charged if The atoms ( electrons and protons ) are bound together ( I mean they can't lose electrons)??
What happens when you rub two initially neutral charge conductors together? Both conductors are disks. My thought is since conductors allow electrons to move easily throughout, the process of frictional charging will move the electrons from one disk to the other. Thus, leaving one disk(A.) positively charged and the other disk(B.) negatively charged.
QUESTION(pls answer) Sir, I wanted to know why are conductors charged only on the surface and not on the inside . So, is the answer because the free electrons escape and accumulate at the edges and on the surfaces? Am I correct? If not, please explain me.
Akashdeep Singh When excess charge is placed on a conductor, they will repel each other. Because charges are free to move on a conductor, they move to get as far apart as possible, which is the surface of the object. Hope that helps.
Charged means more amount of electrons then proton or more proton then electrons. Inside a conductor there is an equal amount of electrons and protons something more electrons. When we will add more electrons those new added electrons will not be able to go inside the atom and the older electrons will push the new ones to the far edges of the object thus creating more electrons on that side then protons. PS wasy bahi ki angrazy kesi lagi?
Even in insulators if you add negatives charges, they get added to the conduction band where they can move around, since when solids form the bands fuse together to form a CONTINUOUS conduction band, right?
so if you use insulators to cause charge in a superconductor... how do you do it? might be done by whirling something around in a cyclone, or whirlwind... could be like a dryer in effect... point is; what are we willing to try?
At 1:00 when you said that the “positively charged nucleus is fixed,” is that where the ‘bound’ charge comes into play? -Inb4 Studying for my final which is 8 hours away
what if we keep grounding these electrons from the inducted rod?? In some point don`t we "finish" all these electrons? How many electrons in a conductor can be released??
it is due to the electrons don't have energy levels to jump off from one atom to another atom, this property is seen in materials and this material is called INSULATORS!!! and even inside or outside if anyone add electrons , they'll stick there , if there is net/unbalanced force is happening , naturally polarization happens and takes care of it.
They get fixed in a postion in which they can be comfortable... Yea they repel each other and try there best to be away and the sit in a position but can't jump off as they are fixed in a place as the video explains.
Why a bulb does not glow if one end through which electrons can reach the bulb is connected to the battery and not the other??? Because in this case also, electrons can move to the bulb and provide their energy to the bulb
Because the electrons are happy inside the battery and don't wanna leave. In scientific terms, there is no potential difference. If you can, there is also emf. The electrons move inside the battery from negative terminal to the positive terminal, they don't just sit there doing nothing. When wire is connected, it provides an alternate and easier path for them to reach the +ve terminal. But if you connect only one end, there is no alternate path. So electrons don't move. Edit: I think i should have just said, "Because there is no +ve charge attracting them", nvm.
Metals cannot be insulators but non metals can, such as graphite which is bonded up with carbon atoms and due to a delocalized electron, it can conduct electricity
Gurl this was sent 46 minutes ago and why are you awake at 3 am cus I went to the bathroom and got bored and decided to study cus of an exam but why?WHY ARE YOU AWAKE?!
Man, your explanations are so on point, next level even. It's funny and interesting to watch, and you explain in a way that is very easy to understand. Thanks for the great job everyone of you in Khan Academy are doing!
So true! I wish he was my professor
You are right dude
LP Chotu Motu
Hey i got a question in 4:43 he says the electrons are stuck there in the insulator .actually where does he exactly explain why? I mean why these extra charges we added can not move??what stops them
@@sarahkaveh7739 The energy gap. In insulators, the electrons do not have the energy to be able to move freely, while in conductors they do
10:40
*brings charged rod close to the not charged one*
electrons:
AIGHT IMMA HEAD OUT
auto tune
Gyat
Thank you so much I couldn't have passed science without you
By far the best simplest illustration of electrical conductivity.
"if you took a huge metal pipe and stuck it in the ground, that would count" Im litterally a nerd for laughing damn
10:43 when someone coughs in the testing room
You’re a God sent teacher 🥵🤲🏾
*good
@@SaraGarcia-jh2pp huh-
I really enjoyed this video, thanks a lot :D
Sue Loves Cats
I love khanacadamy you guys are my guardian angels
This is literally one of the perfectly explained videos I've ever seen. (what they don't teach you at school)
Idk what school you went to, but they definitely taught this in school
@@trent7736 lol yeah I'm doing this for a test tomorrow. She probably meant that in her school it may not be as thorough or easy to understand.
I truly understood everything I'm really thankful for you 💞💞💞
do you think you could make a video about how a battery works plz?
10:45 we stated earlier that the electrons in the insulator couldn't move freely, but now they can all just leave???
My thoughts too.
at 7:18 it says that the rod is a conducting rod not an insulator
One question: if you didn't cut the connecting wire to the ground, then would the charges on the conductor still redistribute themselves? If so, am I correct to assume that then electrons would move from the ground to the conductor to neutralise its charge and be grounded again?
Very well explained, helped me a lot with my online school! : D
Pretty good explanations but don't feel bad if you tend to get a bit confused because David keeps switching between different definitions for things. i.e. when discussing negative charge he starts using electrons interchangeably when an electron is NOT a negative charge, an electrical is a particle that HAS the property of charge that is negative.
Excellent stuff, man!
Enjoyed!
- From the old years
Let's make cool videos instead of using old ones! BLEHHHHH!
- 2020
Excellent Lecture. Thank you.
Question? Vacuum is an insulator, correct? Then how come a beam of electrons were moving from anode to cathode in the vacuum tube of the JJ Tomson experiment? Thank you
Thank you
Not that I'm complaining really, I think this was a great video, but what does this have to do with medicine? Seems kind of off topic given the subject material of this channel.
Plz make a video about how a battery creates a potential difference. Make video and plzzzzz teach in detail because I love to know about all these things
9:20 love the wireless charging tutorial
Baller intro
thank you very much for this video. So useful
Thanks
“Phew okay glad that that’s over” 😂
At 6:10 The negative charges just move to the edges only due to escape repulsion but if more negative charges are added to the conductor, won't the negative charges on the edges be closer enough to repel eachother?
Even if the amount of charge increases, they'll still repel and be closer than what was in the video since there's more charge. Is that what you were referring to?
that was dope
10:44 “Let me get the heck out of here” 😂😂😂
Insulators can be negatively charged by adding electrons. The electrons then will be stuck. But how can insulators be positively charged if The atoms ( electrons and protons ) are bound together ( I mean they can't lose electrons)??
why excess charge will remain at the initial location of charging in insulators?
you are awesome!
What happens when you rub two initially neutral charge conductors together? Both conductors are disks. My thought is since conductors allow electrons to move easily throughout, the process of frictional charging will move the electrons from one disk to the other. Thus, leaving one disk(A.) positively charged and the other disk(B.) negatively charged.
QUESTION(pls answer)
Sir, I wanted to know why are conductors charged only on the surface and not on the inside .
So, is the answer because the free electrons escape and accumulate at the edges and on the surfaces? Am I correct? If not, please explain me.
Akashdeep Singh When excess charge is placed on a conductor, they will repel each other. Because charges are free to move on a conductor, they move to get as far apart as possible, which is the surface of the object. Hope that helps.
Charged means more amount of electrons then proton or more proton then electrons. Inside a conductor there is an equal amount of electrons and protons something more electrons. When we will add more electrons those new added electrons will not be able to go inside the atom and the older electrons will push the new ones to the far edges of the object thus creating more electrons on that side then protons.
PS wasy bahi ki angrazy kesi lagi?
why conductor is a variable resistance?
very good explanations
i love your video i
simply and clearly explained, thank you.
Even in insulators if you add negatives charges, they get added to the conduction band where they can move around, since when solids form the bands fuse together to form a CONTINUOUS conduction band, right?
I have a gold bracelet and a gold necklace that is conducting electricity, what is the best insulator to stop them from conducting???
Difference between shaped conductor and round conductor ?
so if you use insulators to cause charge in a superconductor... how do you do it? might be done by whirling something around in a cyclone, or whirlwind... could be like a dryer in effect... point is; what are we willing to try?
Cool
At 1:00 when you said that the “positively charged nucleus is fixed,” is that where the ‘bound’ charge comes into play?
-Inb4 Studying for my final which is 8 hours away
yes
what if we keep grounding these electrons from the inducted rod?? In some point don`t we "finish" all these electrons? How many electrons in a conductor can be released??
Thanks dude you help me get A for my test👍
extra charge on insulator is stationary. But when we add electrons , there must be repulsions and attractions then why the charge is stationary
it is due to the electrons don't have energy levels to jump off from one atom to another atom, this property is seen in materials and this material is called INSULATORS!!! and even inside or outside if anyone add electrons , they'll stick there , if there is net/unbalanced force is happening , naturally polarization happens and takes care of it.
Why don't the electrons repel each other in an insulator?
They get fixed in a postion in which they can be comfortable... Yea they repel each other and try there best to be away and the sit in a position but can't jump off as they are fixed in a place as the video explains.
Thanks helped me for my exams
Good
I use to go to khanacdmey
Why would added electrons be stuck in one place in the insulator? It doesn't seem obvious. They are not bound to any atom, why wouldn't they roam?
“You know what you do with it.” 😂
I have a gold necklace and a gold bracelet that is conducting electricity, what kind of insulator do I use to stop the conducting in them???
how long the Balloon will stuck there?
Why is it that the current in the circuit remains unchanged if we keep a resistor in it
Why a bulb does not glow if one end through which electrons can reach the bulb is connected to the battery and not the other??? Because in this case also, electrons can move to the bulb and provide their energy to the bulb
Because the electrons are happy inside the battery and don't wanna leave. In scientific terms, there is no potential difference. If you can, there is also emf. The electrons move inside the battery from negative terminal to the positive terminal, they don't just sit there doing nothing. When wire is connected, it provides an alternate and easier path for them to reach the +ve terminal. But if you connect only one end, there is no alternate path. So electrons don't move.
Edit: I think i should have just said, "Because there is no +ve charge attracting them", nvm.
Plz turn on the comments for all ur videos
Why the transfer of electrons takes place from our hair to balloon and not from balloon to hair when we rub the balloon with hair
I have a gold bracelet and a gold necklace that is conducting electricity, what kind of insulator do I use to stop them from conducting???
pretty cool
good and interesting lecture
Thank you so much!!! :)
"I'm gonna get the heck out of here" - electron
11:33 "whew, glad that's over"
I'm pretending Nate Bargatze is the one teaching me physics.
Can metal be an insulator and a non-metal substance be conductor??
Metals cannot be insulators but non metals can, such as graphite which is bonded up with carbon atoms and due to a delocalized electron, it can conduct electricity
so does conductors have what behaves like a potential difference internally
brings charged rod close to tha not chared one😮😮😮😮
Is gum is a conductor or insulator
Keshore Sharma
Probably insulator :P
insulator.
(Maybe) ._.
if the electrons are flown from conductors why are they not getting a +ve charge
I got it
for insulator, if some extra -ve charge applied cant they repel each other, as to how it is happening in case of a conductor.
What happen charge placed near a conductor
The slug sent me here
Can we see a video of this confirmed experimentally?
U won't be able to see electrons physically
So this vid is enough
Plzzz...... Solve my doubts
I wish if you was my teacher
cadet kakar *were
Cat | Dog
How ı can find in Russian this video
+Meri Kanatbekova ti edeeoch "settings" posle edeeoch "substitles". Yah dumayuu ti cmotret ruskii tam. Ee ezvinee za moyah plokha ruskii xD!
"Yeah! Science, bitch!"
victor fong humorless moron
Humor...jaja. Do you consider yourself "funny" when you say "science Bitch"
It's actually a reference to Breaking Bad... the most awesome series ever! You wouldn't know....you would call others assholes.
helom
oh-
Is air-dry clay conductive?? Or stoneware clay?
Gyat
It's a horrible explanation when you get into the macro-level in terms of the structure of the specific material or the atoms itself.
What do you mean ?would you explain more?
2024👇🏻
Gurl this was sent 46 minutes ago and why are you awake at 3 am cus I went to the bathroom and got bored and decided to study cus of an exam but why?WHY ARE YOU AWAKE?!
so the balloon is ceiling gang ? Cringe
this is so hot
wdym?
Men i was learning from wrong teacher this whole time
Justin Roiland?
booooooooooooooooooooooooooooooooooooooooooooooooooooo
i agre boooooooooooooooooooooooo
?????????
I can’t believe haters exist IN SCIENCE VIDS.
Like, just study for your finals, alright?
everything he said was the opposite! For your own sake, watch other videos!