Sho.Wiki is all about the S.H.O. Drive, a new type of electric motor.
Facebook URL: facebook.com/ShoDrives
YouTube URL: youtube.com/ShoWiki
Custom Text for Coding Bootcamp Application
Tue 1/9/2018, 2:53 PM Now that you have completed your phone interview, you will want to click here to complete your Skills Assessment. This takes 15 minutes to complete. Go through each of the questions and answer to the best of your ability. Remember that this is not a pass/fail and will not be factored in your overall Admissions decision.
|Quote from Email Received by Kevin M. (me) ;)|
Here is a list of revisions for this page: http://www.sho.wiki/index.php?title=HQ&action=history
Another quote, but this time from a results page:
"If accepted into our program, prepare to complete at least 16 hours of prep work before class starts."
Physics Stack Exchange Questions
See also: Precession Circle
- (2019.02.08) EMF induced into a conductive loop moving through a conservative electric field
- (2019.03.17) Is the Lorentz transform of a bound current - a bound current?
- (2019.04.15) 3 repelling parallel line charges
- (2019.04.24) Lorentz transformations: Distance vs “retarded distance”
- (2019.05.07) How do we know that electric charges are invariant?
- (2019.05.20) What is the Lenz reaction due to Radial EMF generated by a rotating cylindrical magnet with a steady magnetic field?
- (2019.07.06) Does Larmor precession of a magnetic spin produce a (time-averaged) electrostatic near-field?
- (2019.07.12) Velocity composition effect of moving line charges acting on a moving charge - By what velocity (boost) is the E-field unchanged along the boost?
- (2019.07.14) The Lorentz Transformation of the electric field of a moving charge
- (2019.07.15) A steady line current moving at a steady velocity can produce non-transverse electric fields. What about moving line charges?
- (2019.07.21) A charge accelerating while confined to an equipotential surface
What is the S.H.O. about?
This will be the first drive motor in the world to have a coil that looks like an S, or an H, or an O, depending on which side you look from.
Visit http://sho.wiki/3d to see the full-page version of this animation!
A simple version with only the path of the S.H.O. Coils can be found at http://sho.wiki/3d/simple.
An advanced version displaying the magnetic fields and vector potential can be found at http://sho.wiki/3d/advanced.
What does S.H.O. stand for?
S.H.O. stands for “Side Hung Over”.
What good is this for?
The best way to know is to build one yourself and show it!
How do I make it?
Details can be found at the Replication Station.