I haven't gone through all of your notes yet, but this would've been a godsend to go over in highschool before I started my EE classes in college. It was always obvious which students had been lucky enough to already cover the material.
Your notes are awesome.
One thing I never thought of (and still have a doubt): can you really say that adding more resistance physically slows down the electrons? I mean, how slow can you make them move then by adding mega or giga ohm resistors? In metres per second? Isn't it more like that by adding more resistors there are less electrons which are able to pass it, which makes current flow less (not slower)?
Just a random thought, without research.
Beautifully presented! Thanks for sharing, these notes are inspiring, I especially like the simplicity of the presentation's design paired with interactive elements. Too often I find material with the latter to be extremely busy. As someone interested in instruction, I'm taking notes from this!
One aspect of electricity I think is useful to emphasize is that electrons in a conductor move more like the steel balls Newton's cradle (that toy you may have seen where a ball strikes one end of a line of balls, and nothing moves except the end ball, or you can pull back two balls and then only two balls will move, and so on). This can help with intuition about the distinction between "holes" and electrons, and how energy can flow with holes (which is quite counter-intuitive, I think). In terms of mental model, the ratio of holes to ambient electrons is sometimes useful to think about, as this is fundamental to computing current limits of conductors.
There is a diagram (an animated GIF) about half-way down that sort of implies the newton's cradle method of moving charge, but I don't like it because it's not clear enough. Also, I see current as more of a fixed cloud of valence electrons with holes moving through it - which is a very different intuition than what this diagram implies.
The distinction is between the speed of propagation (e.g. how fast between a light switch flipping until lighting the room) and the physical movement of subatomic particles through the wire.
Looks like what you are describing is a model of the conductivity in the valence band (of a semiconductor). In the conduction band of a metal electrons move freely, their forward mobility being impeded only by heat.
Just amazing! Imagine all the physics and knowledge from multiple sciences, disciplines and fields are used when someone tells Amazon Echo to turn on a charger or socket that’s connected to a phone or laptop.
Echo -> ISP wires —> Undersea Cables —> Amazon Servers -> Back home -> Electricity flow
And this is so super high level
All of these devices on the way are powered by electricity from dams, solar, wind etc. Before voice to speech hits or data is read. Processors and hard disks must do so much heavy lifting
It’s surreal the level of abstraction we are surrounded by..
It's interesting to me when I read it. We take it down to the proton neutron and electron stating they are charged with positive negative or neutral charge.... but what are they charged with ?
It's made of the electromagnetic force. We can measure it and characterize it very accurately with mathematics. We can say what it isn't (gravity or the weak force or the strong force), but we cannot say what the electromagnetic force is. Sorry. If you figure it out you'll get a Nobel Prize.
Physics runs out of "why"s somewhere around the question-asking ability of a clever 5-year-old, and becomes "here's the math to describe what happens" the rest of the way. Electric charge and all the other forces (AFAIK) just are.
They aren't "charged with" anything. Some elementary particles happen to interact with one another in a particular and consistent way, and we label them according to how they behave with something we call charge.
We say that a macroscopic body is “electrically charged” when there is an excess (or a lack) of electrons in it - which merely creates a disbalance between the electrons and the protons. We say that an elementary particle is electrically charged to indicate that there is a nonzero probability of it emitting or absorbing a photon (which leads to creation of the electromagnetic force).
> What is electricity? This question is impossible to answer because the word "Electricity" has several contradictory meanings. These different meanings are incompatible, and the contradictions confuse everyone. If you don't understand electricity, you're not alone. Even teachers, engineers, and scientists have a hard time grasping the concept.
> Obviously "electricity" cannot be several different things at the same time. Unfortunately we've defined the word Electricity in a crazy way. Because the word lacks one distinct meaning, we can never pin down the nature of electricity. In the end we're forced to declare that there's no such stuff as "electricity" at all!
lilgreenland|6 years ago
https://landgreen.github.io/physics/notes/circuits/electrici...
montecarl|6 years ago
"In 1746 Benjamin Franklin mistakenly assigned a negative value to the charge carriers that we now call electrons."
Shouldn't that read "mistakenly assigned a _positive_ value to the charge carriers that we now call electrons"?
new4thaccount|6 years ago
aivisol|6 years ago
neuralk|6 years ago
jaequery|6 years ago
javajosh|6 years ago
There is a diagram (an animated GIF) about half-way down that sort of implies the newton's cradle method of moving charge, but I don't like it because it's not clear enough. Also, I see current as more of a fixed cloud of valence electrons with holes moving through it - which is a very different intuition than what this diagram implies.
lilgreenland|6 years ago
https://landgreen.github.io/physics/notes/electromagnetism/c...
nixpulvis|6 years ago
https://en.m.wikipedia.org/wiki/Drift_velocity
Koshkin|6 years ago
negamax|6 years ago
Echo -> ISP wires —> Undersea Cables —> Amazon Servers -> Back home -> Electricity flow
And this is so super high level
All of these devices on the way are powered by electricity from dams, solar, wind etc. Before voice to speech hits or data is read. Processors and hard disks must do so much heavy lifting
It’s surreal the level of abstraction we are surrounded by..
aaronblohowiak|6 years ago
dang|6 years ago
geggam|6 years ago
Electricity ? What is it made of ?
dreamcompiler|6 years ago
asark|6 years ago
tntn|6 years ago
Electric charge is fundamental.
Koshkin|6 years ago
unknown|6 years ago
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carapace|6 years ago
'What Is "Electricity"?' ©1996 William J. Beaty
> What is electricity? This question is impossible to answer because the word "Electricity" has several contradictory meanings. These different meanings are incompatible, and the contradictions confuse everyone. If you don't understand electricity, you're not alone. Even teachers, engineers, and scientists have a hard time grasping the concept.
> Obviously "electricity" cannot be several different things at the same time. Unfortunately we've defined the word Electricity in a crazy way. Because the word lacks one distinct meaning, we can never pin down the nature of electricity. In the end we're forced to declare that there's no such stuff as "electricity" at all!
http://amasci.com/miscon/whatis.html
Koshkin|6 years ago
HNLurker2|6 years ago
kalado|6 years ago
williesleg|6 years ago
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