I’m looking for the evidence based on the formula for particle gyration which states that all electrons veer left to attempt to complete anti clockwise rotation. My hypothesis is that all the nearby electrons regardless of side (right or left) gyrate around the earth. But the distant ones would...
I am building a spacecraft simulator in a realistic planetary environment. At the moment it uses very simple Newtonian equations of motion. Each object has displacement, velocity and acceleration vectors. Each time the computer does a loop: 0.1 seconds pass and in each loop each object...
Only two acceleration will be
1. Initial spin of the rocket along a 2D plane
2. The main rockets firing as the rocket continues to spin
Will I discover that the rocket will continue to spin as the rocket engine provides the 2nd form of acceleration?
Everyone on this thread seems to think so...
Do you still want me to answer your questions since you are deleting your subscription to this thread? I'm sorry for hurting your feelings, i didn't mean to.
You inferred it.
We were talking about simulating just gravity alone between particles vs electro static attractions.
If you would take your time to follow the line of conversation from start to where we are now you would be less confused.
Dropping components of forces that belong to the...
Gravitational forces are NOT electromagnetic.
And it's not arbitrary if you want to see the significance of one type of force vs another at various types of time increments.
Yes I can, if you want to see the effects of one force alone and ignore the rest as a thought experiment.
As for the wrong positions... it's a simulation. A simulation of the Bhor model. It does not have to simulate real life just a model of it.
Read carefully what i said please... I said if i disabled electro static interactions... then only i see tiny effects and only if i accelerated time can the effects be more significant.
And no i don't calculate 10^15 steps per second, i never said i do, i do however simulate about 30 steps per...
My simulation can accelerate time ^ 40 and beyond
'I told you i was doing a close to bhor model as possible. So I don't need synchrotron radiation at the moment, I'll worry about that when I want to do a more complex model closer to the quantum type. And believe me I DO HAVE stable electron...
I want to simulate protons and electrons as individual particles as close to the bhor model as possible. So to answer your question: perhaps as a plasma. Temperature is something that I will also simulate eventually but I will worry about that later, first I want to put in the equations for...
My point is either possibility exists in the simulator depending on how the particles are initialized. Using a first pson shooter as an analogy imagine if u were to say to me pistols do so little damage its not worth simulating in the game. Then ill say to u well if u do head shots with them up...
can you propose a setup?
So far I know I want to show the electron spinning based on the available data of known intrinsic angular momentum, mass and classical electron radius. Can you use that as a setup? And fill in any blanks for me at your discretion.
I basicly want to show the particle...
so what do you suggest is the best way to simulate electrons in as much classical way as possible?
I mean I know they don't have "spin": in the classic sense, but I can still make them spin based on known facts for example: the classical radius of the electron, the known mass and the known...
Wiki says
The electron is a charged particle of charge (−e), where e is the elementary charge. Its angular momentum comes from two types of rotation: spin and orbital motion. From classical electrodynamics, a rotating electrically charged body creates a magnetic dipole with magnetic poles of...