Dude, this was poetry. You explained it all so simply. I tried to understand Ohms Laws from just internet research and it was so damn confusing. We need more technical layman poets like you
my physics teacher has been trying to explain this to me for 10-15+ hours and you explained it in a 5 min video, you should be a teacher. And a big thumbs up!! Keep up the good work!
This was fantastic! I love just how simply you explain things and put everything into a catchy, entertaining format. I thank you for all your hard work that you put into your videos. I truly appreciate it. You should have like 100x the subscriber count.
This was a great simple way to explain this. I took physics and AP physics last 2 years so I understood it beforehand but this is great for someone who hasn't taken the course.
Thank you In my electronic class days I couldn't even imagine how Ohms law works. There were no visuals like your video, I just had to memorise the text as it is I had the same problem for a couple more physics laws or equations, just text upon text upon more text. It was hard to digest all that information without some kind of support for imagination Long story short, if anyone asks me about Ohms law visuals, your video link will be the first thing on my mind. Great video!
Man, I gotta say. I love your channel because of the nostalgia. I must have started watching 4 years ago when I was like 10. It's so cool to see your graphics, sounds and intro have stayed roughly the same as you're like the only channel on UA-cam that have done so. Keep up the best channel in the world. (P.s the first video I watched was how to setup your own email using squirrelmail)
Ok, you said you need a 180 Ohm resistor to make that little circuit that you had displayed up there, towards the end, work without blowing out the LED. So how are you not burning/blowing it out when you're still over the the required value determined by stated equation for finding such? Is it because the wear is spread over a more extended period of time than it would have without a resistor, such as a incandescent light bulb, maybe? Or would that happen anyways even if you had a sufficiently large enough resistor for the equation to make it under, or equal? What's the outcome of an exact resistor?
hey! just a small correction, electromotive force and electric potential are not the same! The electric potential comes from the integral of the conservative electric field while the electromotive force comes from the integral of the whole electric field, which takes into account chemical and thermal effects, like in batteries.
Rogério Jorge What I should have written is "electrical potential difference", which is a volt. What you're describing is "electrical potential energy", but you're right in saying that I shouldn't have just left it as "electrical potential", because that can lead to a wrong assumption.
Why you used V = I * R not U = I * R? I know they both are acceptable, but V makes it inconsistent because we measure voltage (marked V or U) in V(olts), current (marked I) in A(amperes) and resistance (marked R) in Ω(ohms). That makes voltage special.
kar27k I've never heard of using U, and can't find any documentation of what U represents (except for atomic mass unit). And it doesn't make it inconsistent because current (I) is measured in Amps (A), Resistiance (R) is measured in Ohms (Ω), and Voltage (V) is measured in Joules/Coulomb (J/C).
i've gone to school and learnt electronics, right? aaaand... for some reason... school makes sense, this video kinda does, but it's so much off topic here.. like... V(volt) is the charge, R is the resistance aaand I is the amper, don't ask me how, but it's a tough complicated sense, but this video does makes sense in the end. btw, isn't it 5V output and not input? or am i just tired?
Pointing out small error in 3:27 about how LED work, LED doesn't convert electricity to heat which is converted into light, that is how normal incandescent bulb work. A more correct version is that LED converts electricity into both light and small amount of heat
minecraft2048 That isn't exactly true. Although they don't produce heat, heat is still used in the light generation process. www.ledsmagazine.com/articles/2005/05/fact-or-fiction-leds-don-t-produce-heat.html
Tinkernut Unless LED is a superconductor, of course it will produce heat from resistive loss. Incandescent bulb encourage it so that the resistive losses will heat up the filament and make it glow through black body radiation, while LED uses electroluminescence, which is a process where electrons doesn't loses energy to heat, it loses energy as photons directly, skipping the heat generation process, hence heat is not used in light generation process
minecraft2048 well defended, good sir. My original example was using a light bulb, but when I changed it to LED, I didn't take the "heat to light" reference out of the script. I caught the mistake during the final render, but thought that the point was still valid that energy was lost to the LED, so I left it in. I'm currently trying to find out a good method for having others review my videos before posting them. If you'd be interested, you can shoot me an e-mail at admin (at) tinkernut.com.
***** U is het algemeen gebruikte symbool in europa, dit is ook vele beter/duidelijker dan V: V (grote letter) is de eenheid van spanning, dus om V (grote letter) het symbool van spanning te maken kan er serieuze verwarring ontstaan. als dat nog niet genoeg moest zijn: "U" staat in de fysica voor potentiële energie, en een voltage is een elektrisch potentieel verschil vandaar dat U veel word gebruikt in europa en eigenlijk overal ter wereld gebruikt zou moeten worden om verwarring te voorkomen.
Here is a question that might seem silly but nobody I have ever asked knew the answer... Where do the electrons come from before they are in the wires or battery? e.g. If I use a generator and turn it by Hand, it moves electrons from the generator through the wires to a light or battery or whatever. So where do the electrons come from that are generated by the hand cranked generator?
Tinkernut sorry, I don't understand. I assume you meant stored in the battery as chemicals?? I am talking about where do the electrons come from that get stored or used. I have always heard energy is not created or destroyed. So if a generator "produces" electricity in the form of electrons to charge a battery... where do the electrons originate? They have to come from somewhere in order to be stored in a battery or used as light or whatever Right? Sorry to keep pressing, but you always explain things where I can understand and I couldn't pass up this opportunity to finally understand this. :-)
Great illustration and entertaining but I think the battery bit is confusing the issue. Lets just use a hand cranked generator lighting a bulb. Does the generator "produce" electrons? If so, where do they come from? The only other thing that makes sense is that the wires already have electrons in them and the generator just kind of excites them or breaks them loose to run the circuit but once they have converted to light energy, are they gone? If so, more have to come from somewhere.
actually battery is not a vessel under pressure full of electrons, its 2 separated vessels where one vessel is under pressure full of electrons and the other is low pressure and needs electrons, and this is what makes the electrons flow thru the wire... pure logic if you have gas bottle under pressure and you connect a pipe from one end of the bottle to the other there will be no flow of gas...
IamIUareU Thanks for the feedback! It wasn't my intention to imply that a battery only contains electrons, in fact, it wasn't my intention to explain how a battery works at all. That will be for another video. The electrons were the focus of the video, so I didn't think it necessary to focus on the other areas. Explaining every detail of the components and there processes would have made this video at least 5 times longer.
ugh, i don't get i why in so many countries/places "V" is used as the symbol for voltage, the one and only correct symbol should be "U" 3 reasons why this is: 1) current: symbol=I unit symbol= A resistance: symbol= R unit symbol= "omega" (could not find it on my keyboard :D ) voltage: symbol= V unit symbol= V where amps and ohms have a different symbol, volts doens't, so why would this make sense? 2) as the unit symbol of volts = V and the symbol of voltage wis V to, this is just asking for problems... 3) the symbol for potential energy in physics is U and voltage is actually an electrical pottential difference, so it would make sense for the voltage symbol to be U
TV3master I'm having trouble following your logic. I*R doesn't equal potential energy, it equals potential difference (which is the potential energy per unit charge). The SI unit for potential energy is the Joule (J), not the Volt. The SI unit for potential difference is Joules per Coulomb (J/C), which is a Volt. If anything, the Volt could be replace by J/C or Electromotive Force (EMF), but those are all the same thing as the Volt.
Tinkernut yeah i can see the confusing there, i did not mean to say that I*R equals potential energy i was just trying to imply that U would be a better choice because it lays closer to what it actually stands for, because in the physics notations V stands for volume, so U is closer related to voltage then V is i hope this cleared things up :)
TV3master thanks, it does clear things up. SI notation in general can be very confusing, because "u" also stands for atomic mass unit....why can't we just use z=x*y?
Tinkernut oh and really like the video, one off the best (if not the best) video that explains ohms law and the general principle about an electric current keep up the good work! :)
Tinkernut i am affraid that both X and Z are already used in the elektronics world :D Z stands for impedance and X for reactance i am sure even Y is taken, altrough i dont know for what out of my head :D
pikachu1324 No, a short circuit is where two traces on a circuit board or just a plain circuit touch. This is just a circuit. Instead of powering the led the potential energy would be converted into heat, increasing the wire temperature.
pikachu1324 a short curcuit is still a circuit ;) and a short circuit is just an heat generating circuit what do you think that happens in the heating element off a (cheap) solderng iron?
You have made a huge mistake. Batteries are not "boxes packed with electrons." A such box would explode due to Coulomb repulsion.¨ Instead, new charges are generated as charges leaves. At the same time, positive charges are flowing inside the battery.
I was studying ohms law and i am unable to understand the difference between veriable rasistance and rheostat i know it is silly but please help me if you know
Wait, how do I even power a LED from a USB? You should make a tutorial on that :D Or something about how the tor network works, like, how the .onion adresses are resolved.
You cut a usb wire open. In it there are red and black ones. Red is + and black is -. Now pretend they're + and - of a battery and use it like you would use a battery
Reydus FX no. there would be no current. the animation is slightly out of order in that if the wire isn't connected to the north pole, there would be nothing to attract the electrons to cause the current. It would just be "static voltage".
Tinkernut Damm my teacher is sh*t compared to you he just said that amp * volt = watt than he came with a weird yellow box with half round thing on it and told me it could add voltage but I didn't knew what it did (not u needed it anyway I just had to show something and draw a schematic of it. I wonder how some didn't passed that test.
jaap aarts amp*volt = watts that is completly correct, there are alot more formules about electricity then ohm's law alone so you may want to take more attention in class ;)
I don't like how you talk about concepts in the first half of the video, but then completely ignore that in favor of applying pure mathematics to Ohm's Law, without talking about the conservation of electrostatic forces in closed circuits that allows Ohm's Law to work in principle. It is the essence of potential difference being stored-energy that we harness to drive our electronics. If you drove that home: you could have left the viewers with a more conceptual understanding of how Ohm's Law works and why it is so powerful in closed-circuit applications and why resistance isn't some arbitrary idea and has real world applications to the arbitrary concept of energy.
Steven Van I like your view a lot. Thanks for the feedback! Feel free to write a script with all those details in a fashion that an 8 year old could understand and I"ll make it into a video ;-)
Steven Van If you can storyboard, that would be great as well, but you'd just have to keep in mind the format I use. Send it to admin (at) tinkernut.com. I'm eager to see what you have in mind :-)
This has been the dozenth time that this topic has been explained to me, this has probably been the simplest but i will never be able to understand this bunch of gibberish
Dude, this was poetry. You explained it all so simply. I tried to understand Ohms Laws from just internet research and it was so damn confusing. We need more technical layman poets like you
my physics teacher has been trying to explain this to me for 10-15+ hours and you explained it in a 5 min video, you should be a teacher. And a big thumbs up!! Keep up the good work!
Other People are saying this is a reupload, but I Don't care. Tinkernut makes great content.
Patrick Boots CEC It IS a reupload, and because the prior video had a mistake in the example calculation.
It's not a reupload of a old vid, it's just a one from day or two ago
This was fantastic! I love just how simply you explain things and put everything into a catchy, entertaining format. I thank you for all your hard work that you put into your videos. I truly appreciate it. You should have like 100x the subscriber count.
Now you HAVE to do Kirchhoff's circuit laws with emoji :D
This was a great simple way to explain this. I took physics and AP physics last 2 years so I understood it beforehand but this is great for someone who hasn't taken the course.
Lets talk about antimatter or how to build a wormhole to go to fast food with out need of walk.
Good luck :)
***** For that you need to know general relativity. That requires a whole lot of differential geometry.
before that,you should learn on how to use apostrophes, it's *let's not "lets".
hentai nat of experience
if you want to be grinded to dust by a warmhole fine by me
Thank you
In my electronic class days I couldn't even imagine how Ohms law works. There were no visuals like your video, I just had to memorise the text as it is
I had the same problem for a couple more physics laws or equations, just text upon text upon more text. It was hard to digest all that information without some kind of support for imagination
Long story short, if anyone asks me about Ohms law visuals, your video link will be the first thing on my mind. Great video!
I hadn't been on this channel for a year now. Suddenly the intro music plays
Ahhhh Memories...
After many video's and explenations I finally get it. Thanks!
Man, I gotta say. I love your channel because of the nostalgia. I must have started watching 4 years ago when I was like 10. It's so cool to see your graphics, sounds and intro have stayed roughly the same as you're like the only channel on UA-cam that have done so. Keep up the best channel in the world. (P.s the first video I watched was how to setup your own email using squirrelmail)
I remember learning this years ago in school but you seriously explained it better than my science teacher :p
Hey gigafide just found you and subscribed love all your videos! Keep it up you do a great job
Brian Morgan Thanks for subscribing! I'll do my best to keep it up!
Best example video I ever saw.....
Well, this video taught me what my physics teachers in middle and high school couldn't.
My class is watching you for physics!😃😁
Ok, you said you need a 180 Ohm resistor to make that little circuit that you had displayed up there, towards the end, work without blowing out the LED. So how are you not burning/blowing it out when you're still over the the required value determined by stated equation for finding such? Is it because the wear is spread over a more extended period of time than it would have without a resistor, such as a incandescent light bulb, maybe? Or would that happen anyways even if you had a sufficiently large enough resistor for the equation to make it under, or equal? What's the outcome of an exact resistor?
Woah, I just started electrostatics in summer physics. Ty mate!
this is the first thing that made me understand this law...
If only I had these vids in 90's, school would have been more .... Fun!!!
hey! just a small correction, electromotive force and electric potential are not the same! The electric potential comes from the integral of the conservative electric field while the electromotive force comes from the integral of the whole electric field, which takes into account chemical and thermal effects, like in batteries.
Rogério Jorge What I should have written is "electrical potential difference", which is a volt. What you're describing is "electrical potential energy", but you're right in saying that I shouldn't have just left it as "electrical potential", because that can lead to a wrong assumption.
Fantastic explanation, the emoji got me confused at first but it's okay.
Could you explain coils a little bit (sorry if you already did i'm gonna check that)
Or capacitors ?
Thanks very much for the post Tinkernut ! cause many people will just throw negative comments on you, rather appreciate your effort. :)
Why you used V = I * R not U = I * R? I know they both are acceptable, but V makes it inconsistent because we measure voltage (marked V or U) in V(olts), current (marked I) in A(amperes) and resistance (marked R) in Ω(ohms). That makes voltage special.
kar27k I've never heard of using U, and can't find any documentation of what U represents (except for atomic mass unit). And it doesn't make it inconsistent because current (I) is measured in Amps (A), Resistiance (R) is measured in Ohms (Ω), and Voltage (V) is measured in Joules/Coulomb (J/C).
i've gone to school and learnt electronics, right? aaaand... for some reason... school makes sense, this video kinda does, but it's so much off topic here..
like... V(volt) is the charge, R is the resistance aaand I is the amper, don't ask me how, but it's a tough complicated sense, but this video does makes sense in the end.
btw, isn't it 5V output and not input? or am i just tired?
Helpful video, thanks!
So does that mean Tinkernut is stepping down DC with restistors? I thought resistors affect effective current, not voltage.
Fun fact if Georg Simon Ohm last last name was Tomson we 2day measure ohms in toms:D
Andrius Kamarauskas Nice!
what software do u use to make such animation videos??
Awesome video, thanks! I would love to see more of those kind of videos.
Pointing out small error in 3:27 about how LED work, LED doesn't convert electricity to heat which is converted into light, that is how normal incandescent bulb work. A more correct version is that LED converts electricity into both light and small amount of heat
minecraft2048 That isn't exactly true. Although they don't produce heat, heat is still used in the light generation process. www.ledsmagazine.com/articles/2005/05/fact-or-fiction-leds-don-t-produce-heat.html
Tinkernut Unless LED is a superconductor, of course it will produce heat from resistive loss. Incandescent bulb encourage it so that the resistive losses will heat up the filament and make it glow through black body radiation, while LED uses electroluminescence, which is a process where electrons doesn't loses energy to heat, it loses energy as photons directly, skipping the heat generation process, hence heat is not used in light generation process
minecraft2048 well defended, good sir. My original example was using a light bulb, but when I changed it to LED, I didn't take the "heat to light" reference out of the script. I caught the mistake during the final render, but thought that the point was still valid that energy was lost to the LED, so I left it in. I'm currently trying to find out a good method for having others review my videos before posting them. If you'd be interested, you can shoot me an e-mail at admin (at) tinkernut.com.
this really helped me thanks
why was 3V plugged into the formula when the usb outputs 5V? I thought it was the voltage of the battery/power source that goes there
Had this one on my finals two months ago. For some reason they teach Ohm's law as U = I × R instead of V = I × R in the Netherlands. Any idea why?
***** It doesn't change the math, but I have also wondered this.... why does v = u?
ShadowBlade v and u are just arbitrary letters. Einstein's E=mc^2 is just as true if you substitute φ=иg^2.
Christonian Coder Yeah we know that, but why do some teach with u instead on v and vice versa?
***** U is het algemeen gebruikte symbool in europa, dit is ook vele beter/duidelijker dan V:
V (grote letter) is de eenheid van spanning, dus om V (grote letter) het symbool van spanning te maken kan er serieuze verwarring ontstaan.
als dat nog niet genoeg moest zijn:
"U" staat in de fysica voor potentiële energie, en een voltage is een elektrisch potentieel verschil
vandaar dat U veel word gebruikt in europa en eigenlijk overal ter wereld gebruikt zou moeten worden om verwarring te voorkomen.
TV3master Helder. Maar er zit dus geen bepaalde reden achter dat soms V gebruikt wordt ipv U? Eenheid van spanning is trouwens een hoofdletter V ;)
Here is a question that might seem silly but nobody I have ever asked knew the answer...
Where do the electrons come from before they are in the wires or battery? e.g. If I use a generator and turn it by Hand, it moves electrons from the generator through the wires to a light or battery or whatever. So where do the electrons come from that are generated by the hand cranked generator?
Bill Nunley The electrons are stored as chemicals, they aren't really generated.
Tinkernut sorry, I don't understand. I assume you meant stored in the battery as chemicals?? I am talking about where do the electrons come from that get stored or used. I have always heard energy is not created or destroyed. So if a generator "produces" electricity in the form of electrons to charge a battery... where do the electrons originate? They have to come from somewhere in order to be stored in a battery or used as light or whatever Right?
Sorry to keep pressing, but you always explain things where I can understand and I couldn't pass up this opportunity to finally understand this. :-)
Bill Nunley Me of all people appreciate an inquisitive mind :-) This may help clear things up? ua-cam.com/video/CJK2kwF6Am4/v-deo.html
Great illustration and entertaining but I think the battery bit is confusing the issue. Lets just use a hand cranked generator lighting a bulb. Does the generator "produce" electrons? If so, where do they come from? The only other thing that makes sense is that the wires already have electrons in them and the generator just kind of excites them or breaks them loose to run the circuit but once they have converted to light energy, are they gone? If so, more have to come from somewhere.
actually battery is not a vessel under pressure full of electrons, its 2 separated vessels where one vessel is under pressure full of electrons and the other is low pressure and needs electrons, and this is what makes the electrons flow thru the wire... pure logic if you have gas bottle under pressure and you connect a pipe from one end of the bottle to the other there will be no flow of gas...
IamIUareU Thanks for the feedback! It wasn't my intention to imply that a battery only contains electrons, in fact, it wasn't my intention to explain how a battery works at all. That will be for another video. The electrons were the focus of the video, so I didn't think it necessary to focus on the other areas. Explaining every detail of the components and there processes would have made this video at least 5 times longer.
Tinkernut with this in mind, make a video explaining batteries
*****
yeah, about all kinds of them and how they work and some info about the newest ones that are refillable in few minutes and are flexible...
IamIUareU I appreciate that :-)
***** I'm planning to. Not sure when It'll be released, though.
ugh, i don't get i why in so many countries/places "V" is used as the symbol for voltage, the one and only correct symbol should be "U"
3 reasons why this is:
1) current: symbol=I unit symbol= A
resistance: symbol= R unit symbol= "omega" (could not find it on my keyboard :D )
voltage: symbol= V unit symbol= V
where amps and ohms have a different symbol, volts doens't, so why would this make sense?
2) as the unit symbol of volts = V and the symbol of voltage wis V to, this is just asking for problems...
3) the symbol for potential energy in physics is U and voltage is actually an electrical pottential difference, so it would make sense for the voltage symbol to be U
TV3master I'm having trouble following your logic. I*R doesn't equal potential energy, it equals potential difference (which is the potential energy per unit charge). The SI unit for potential energy is the Joule (J), not the Volt. The SI unit for potential difference is Joules per Coulomb (J/C), which is a Volt. If anything, the Volt could be replace by J/C or Electromotive Force (EMF), but those are all the same thing as the Volt.
Tinkernut yeah i can see the confusing there, i did not mean to say that I*R equals potential energy
i was just trying to imply that U would be a better choice because it lays closer to what it actually stands for, because in the physics notations V stands for volume, so U is closer related to voltage then V is
i hope this cleared things up :)
TV3master thanks, it does clear things up. SI notation in general can be very confusing, because "u" also stands for atomic mass unit....why can't we just use z=x*y?
Tinkernut oh and really like the video, one off the best (if not the best) video that explains ohms law and the general principle about an electric current
keep up the good work! :)
Tinkernut i am affraid that both X and Z are already used in the elektronics world :D
Z stands for impedance
and X for reactance
i am sure even Y is taken, altrough i dont know for what out of my head :D
Ohmmmm....
More videos like this one please.
Can u recommend good book for that?
Alcubierre Drive explained using Emoji. :D
3:16 A basic example of a circuit? More like a basic example of a short circuit.
pikachu1324 No, a short circuit is where two traces on a circuit board or just a plain circuit touch. This is just a circuit. Instead of powering the led the potential energy would be converted into heat, increasing the wire temperature.
pikachu1324 a short curcuit is still a circuit ;)
and a short circuit is just an heat generating circuit
what do you think that happens in the heating element off a (cheap) solderng iron?
pikachu1324 haha. nice :-) Hopefully no one tries to just use a wire to connect two ends of a battery ;-)
No disassemble number five! The only short circuit you need.
do power law next! It looks like ohms law but it's not.
basically 7th grade physics and 8th grade technology
Hoàng Trần Minh you've recognized my target demographic :-)
what is the name program you use create.
This will help me on the physics test.
can you continue with this lesons
Emoji's help explain everything.
You have made a huge mistake. Batteries are not "boxes packed with electrons." A such box would explode due to Coulomb repulsion.¨
Instead, new charges are generated as charges leaves. At the same time, positive charges are flowing inside the battery.
I was studying ohms law and i am unable to understand the difference between veriable rasistance and rheostat i know it is silly but please help me if you know
where was you when I was studying engineering lol
Odd that this video was posted on a tuesday instead of the weekend. ALSO JOIN THE RESISTANCE i.imgur.com/vyk9AU5.jpg
Kirchhoff's law
Wait, how do I even power a LED from a USB? You should make a tutorial on that :D
Or something about how the tor network works, like, how the .onion adresses are resolved.
You cut a usb wire open. In it there are red and black ones. Red is + and black is -. Now pretend they're + and - of a battery and use it like you would use a battery
***** Yeah and then either solder it or use electrical tape which should be fine for a simple LED.
Synergy Music you don't have to use electrical tape for this low-voltage thing
What if the connector wasn't connected to the north pole? Would the LED be lit?
Reydus FX no. there would be no current. the animation is slightly out of order in that if the wire isn't connected to the north pole, there would be nothing to attract the electrons to cause the current. It would just be "static voltage".
this is better than school
Lol.. This method of explaining things should be used in schools. :)
Good
+Praveer Chhabra That's what I immediately thought. This guy is so good at what he's doing!
Mind blown.
What happened to the wireless electricity how to?
Tim Finley I'm adding a link to it right now.
Before I even enter the comment section, I am going to say this:
DON'T COMMENT RANDOM EMOJIS!
Watts law seems appropriate.
Very nice
I wish they showed it to me this way in college :/
Im 12 an i love to make projects with resistors but now i know how they actualy work
why did you reupload? it makes no sense xd
Lucky | PC Gaming | Gameplays The first version had an error in the example math.
seigeengine oh, oh okay then xd
Lucky | PC Gaming | Gameplays I had some mistakes in the first one. This one fixes (hopefully all of) the mistakes.
Tinkernut Damm my teacher is sh*t compared to you he just said that amp * volt = watt than he came with a weird yellow box with half round thing on it and told me it could add voltage but I didn't knew what it did (not u needed it anyway I just had to show something and draw a schematic of it.
I wonder how some didn't passed that test.
jaap aarts amp*volt = watts that is completly correct, there are alot more formules about electricity then ohm's law alone
so you may want to take more attention in class ;)
Nice!
I don't like how you talk about concepts in the first half of the video, but then completely ignore that in favor of applying pure mathematics to Ohm's Law, without talking about the conservation of electrostatic forces in closed circuits that allows Ohm's Law to work in principle. It is the essence of potential difference being stored-energy that we harness to drive our electronics. If you drove that home: you could have left the viewers with a more conceptual understanding of how Ohm's Law works and why it is so powerful in closed-circuit applications and why resistance isn't some arbitrary idea and has real world applications to the arbitrary concept of energy.
Steven Van I like your view a lot. Thanks for the feedback! Feel free to write a script with all those details in a fashion that an 8 year old could understand and I"ll make it into a video ;-)
Tinkernut How do I go about doing that? Do I submit the idea via the website, is there a format? Do you want a storyboard?
Steven Van If you can storyboard, that would be great as well, but you'd just have to keep in mind the format I use. Send it to admin (at) tinkernut.com. I'm eager to see what you have in mind :-)
qED is really interesting to talk anout
Amper vs Amper hour, i cant get it
Um
Why is it reuploaded??
JackoBoy987 I had some mistakes in the first one. So this one fixes it.
Ohm my gosh
Oooooohm..
Say Watt?
This has been the dozenth time that this topic has been explained to me, this has probably been the simplest but i will never be able to understand this bunch of gibberish
Android emojis look better
V = IR :)
Good Job! Well covered... one question though, what's with the coughing sound in the background?
Negative emojis are sick :D
***** Ahhhhh, that makes sense! Cheers :D