.gif)
| Sirsty 1 | Sirsty Workbench |
|
For point N = 1..100 radius R = N velocity V = acceler a = Speed X Step Arm Size / / Arms / / Arm Symmetry / Step Size |
Sirst = Spiral of Inverse Radius Space Time.
A Sirst portrays a number of points moving at uniform speed in their own circles. Each Sirst has a velocity ( radius ) function that it employs to determine
the speed of each point in the spiral.
| Sirsty Type # | Tangential velocity V as a function of radius R |
Inward acceleration a as a function of radius R |
| 1 | V = 1 / R ^ (0) | a = 1 / R ^ 1 |
| 2 | V = 1 / R ^ (1/2) | a = 1 / R ^ 2 |
| 3 | V = 1 / R ^ (1) | a = 1 / R ^ 3 |
| 4 | V = 1 / R ^ (3/2) | a = 1 / R ^ 4 |
| 5 | V = 1 / R ^ (2) | a = 1 / R ^ 5 |
Each Sirsty type fits the equation for circular orbitals physics that relates velocity v to acceleration a. Namely, V^ 2 / R = a.
Fex, take Sirsty type 1. V^ 2 = 1/ R^(0) * 1 / R (0). And V^2 / R = 1 * 1 / R = 1 / R ^ 1.
Velocity v (y-axis) versus radius R (x-axis).