Maxwell’s Equations Part 2: Gauss’s Law for the Magnetic Field
HTML-код
- Опубликовано: 25 окт 2022
- We just learned Gauss's law for the electric field, but wait, there's also Gauss's law for the magnetic field! This will help us better understand magnetic fields, obviously. And who doesn't want that? Again, if all the advanced calculus is too much to handle, visit the mathematics playlist for some review! Otherwise let's learn about how moving electric charges generate magnetic fields.
Watch the whole Classical Physics playlist: bit.ly/ProfDavePhysics1
Modern Physics Tutorials: bit.ly/ProfDavePhysics2
Mathematics Tutorials: bit.ly/ProfDaveMaths
General Chemistry Tutorials: bit.ly/ProfDaveGenChem
Organic Chemistry Tutorials: bit.ly/ProfDaveOrgChem
Biochemistry Tutorials: bit.ly/ProfDaveBiochem
Biology Tutorials: bit.ly/ProfDaveBio
EMAIL► ProfessorDaveExplains@gmail.com
PATREON► / professordaveexplains
Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience!
Amazon: amzn.to/2HtNpVH
Bookshop: bit.ly/39cKADM
Barnes and Noble: bit.ly/3pUjmrn
Book Depository: bit.ly/3aOVDlT
Just finished electromagnetism in school, I’m psyched to see this!
As an electrical engineer, I'm really glad to see people interested in this kind of content. You made my day.
me listening to this stuff in school: 😴😴😐
me watching a RUclips video about it: 🤯👀👀
In which standard you are in your school I mean I am in India , here they teach same in class 12 . Wanna know in US
Somewhat different for me, it's more than 20 years ago that I've seen this in school and I've hardly touched this stuff ever since … and I'm eager to brush up un things :)
hey i was wondering like what are the things that you’re will have in this playlist in the future like after classical electromagnetism will you delve into Lagrangians and Hamiltonians and further into modern physics or will this be strictly for classical physics , and also will you add the necessary math knowledge for the future courses to your math playlist if it’s something that wasn’t discussed there or will you explain them in those videos respectively? and thanks !!
Thanks man going to be honest math is not my supersuit but you make it so easy to understand :)
Hi sir, wonderful work.
I respectfully request you to upload a series of tutorials explaining and illustrating electromagnetism and the complicated math problems associated with it. Please please please....
Hey Prof Dave , can you explain to me the Schrödinger equations and how to use it
Love for you sir.....
Thanks!
Did you know there's also a Gauss's law for the gravitational field? It's grad . g = -4 pi G * density
0:42 - 0:49. The fields are not propagating along the y-axis or the z-axis. Both fields are propagating along the x-axis. The orientation of the E-field is along the y-axis. The orientation of the B-field is along the z-axis. But the wave is propagating along the x-axis.
hey professor dave, while i think this playlist is very complete and is overall fantastic, i do feel like you could cover a lot more things in the modern physics playlist. do you ever plan on expanding the playlist or do you just feel like its complete?
Certainly not complete, I hope to do more at some point.
Could you collaborate with Avinash Kumar regarding his recent thesis on anomalous relaxation?
Great High School stuff
حفظ الله ورعايته لكم اخي الكريم وبارك الله فيك وجزاك الله خيرا
this has nothing with religion bruh
Maxwell's discovery was that he connected light with magnetism.
I say light converts to electron positron pairs and back and forth. Photons, electrons and positrons are all versions of the same thing.
The magnetic field connected to a light wave... would have to have both a positive and negative aspect. Magnetism is not a monopole.
That would suggest magnetism is an electron positron magnetic field.
That seems to tie in photon light with electron positron magnetism.
The drawing shows a light or photon wave as red and the magnetic field in blue with electrons or e- , alternating with positrons or e+.
Summary
Here are the key components of all my physics posts.
Photons are eternal and outside of time and distance.
The singularity of photons began the Big Bang.
Photons created electron positron pairs in the Big Bang.
These electrons and positrons made the elementary particles which in turn made the atoms.
Photons, electrons, and positrons, are all different versions of the same thing.
The energy of the universe comes from photons converting to electron positron pairs, or electrons and positrons converting to photons.
The force from the Big Bang singularity was photons, dark energy, or anti gravity.
The force from acceleration is anti gravity, not gravity.
hi professor dave! lovely video. are you american? because i was curious about - what grade do students learn these topics in the US? and i realised that i have been pronouncing "gauss" wrong my whole life😭
0:24
I have a question. Why does the plate get so warm in the microwave, if it only heats water particles?
Conduction. The heat transfers from the food to the glass.
Some plates can hold water inside also.
👍❤️
Hi Dave! I watched a few vids by Ken Wheeler yesterday, have you heard of him? 2 days ago he called himself "the foremost expert in this world on what the field of magnetism is" and he's previously said that he "literally wrote THE book on magnetism"😂. Seems like michelin star word salad to me but it's definitely not my area, would love to hear your thoughts in a vid!
I'm so dumb, why am I even here 😐
To become not dumb lol
“The tallest mountain started as a stone.” ^.^
@@vassilispetrides8841 lol but this is way above my pay grade
Nice words, thanks ☺️
My life is very sad 😭
Hi, first
Amazing. Professor Dave presents a video covering some of the most cornerstone concepts and discoveries in magnetism and electricity - the same stuff the runs the device you used to make this completely useless post - and your only concern is being first to post in the replies? Laughable.
@@glennpearson9348 good point you have over there, and for the record i know how priceless this videos are by the fact that i've watched almost the entirety of prof Dave videos along with more than 12 high yield medical channels, except in prof Dave channel he rarely replies so i switched by replying in a somewhat funny way which it doesn't cause any harm :)
Gz
🏆🍾👏
I’m on this unit now, can you crank through the videos faster please lol