VPython Reference: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
|||
Line 147: | Line 147: | ||
| boolean | | boolean | ||
| Whether or not to leave behind a trail | | Whether or not to leave behind a trail | ||
|} | |||
=== Curve === | |||
[http://vpython.org/contents/docs/curve.html Source] | |||
==== Example ==== | |||
trail = curve(color=color.orange) | |||
trail.append(pos=(1,2,3)) | |||
trail.append(pos=(4,5,6)) | |||
==== Parameters ==== | |||
{| class="wikitable" | |||
|- | |||
! Parameter | |||
! Type | |||
! Description | |||
|- | |||
| pos | |||
| vector array | |||
| Positions of the trail | |||
|- | |||
| color | |||
| color | |||
| Color of the object | |||
|} | |} | ||
Revision as of 20:39, 5 December 2015
Created by Shuyang Chen
VPython reference page for drawing functions and constants. This page compiles common usages into one page for quick reference. This page assumes that the student knows the basics of creating the objects and just needs a reference page for them.
For detailed and more descriptive pages about objects and how to use them, see VPython_3D_Objects and VPython_Objects
VPython Template
from __future__ import division from visual import * ## Constants ## Initialization ## Loop t = 0 deltat = 1e-10 end = 10 while t < end: rate(1000) ## Loop Code t += deltat
VPython Animation Functions
Sphere
Example
ball = sphere(pos=(1,2,3), radius=0.4, color=color.blue)
Parameters
Parameter | Type | Description |
---|---|---|
pos | vector | Position of the object |
color | color | Color of the object |
radius | number | Radius of the sphere |
opacity | number | Opacity of the object |
make_trail | boolean | Whether or not to leave behind a trail |
Box
Example
cube = box(pos=(1,2,3), length=4, height=5, width=6, color=color.green)
Parameters
Parameter | Type | Description |
---|---|---|
pos | vector | Position of the object |
color | color | Color of the object |
length | number | Length of the box |
height | number | Height of the box |
width | number | Width of the box |
axis | vector | Direction the box is facing (facing side is height x width) |
opacity | number | Opacity of the object |
make_trail | boolean | Whether or not to leave behind a trail |
Arrow
Example
arr = arrow(pos=(1,2,3), axis=(4,5,6), color=color.red)
Parameters
Parameter | Type | Description |
---|---|---|
pos | vector | Position of the object |
axis | vector | Direction the arrow is pointing at |
color | color | Color of the object |
opacity | number | Opacity of the object |
shaftwidth | number | Width of the shaft (default: 0.1*(length of arrow)) |
headwidth | number | Width of the head (default: 2*shaftwidth) |
headlength | number | Length of the head (default: 3*shaftwidth) |
make_trail | boolean | Whether or not to leave behind a trail |
Curve
Example
trail = curve(color=color.orange) trail.append(pos=(1,2,3)) trail.append(pos=(4,5,6))
Parameters
Parameter | Type | Description |
---|---|---|
pos | vector array | Positions of the trail |
color | color | Color of the object |
Color
Example
c = color.red
Basic Colors
Name | Vector | Color |
---|---|---|
Red | (1,0,0) | color.red |
Yellow | (1,1,0) | color.yellow |
Green | (0,1,0) | color.green |
Orange | (1,0.5,0) | color.orange |
Blue | (0,0,1) | color.blue |
Cyan | (0,1,1) | color.cyan |
Magenta | (1,0,1) | color.magenta |
White | (1,1,1) | color.white |
Black | (0,0,0) | color.black |
VPython Common Constants
Constant | Common Variable Name | Approximate Value | Code |
---|---|---|---|
Speed of light | c | 299792458.0 | c = 299792458.0 |
Gravitational Constant | G | 6.67408e-11 | G = 6.67408e-11 |
Electron Mass | m_e | 9.10938356e-31 | m_e = 9.10938356e-31 |
Proton Mass | m_p | 1.6726219e-27 | m_p = 1.6726219e-27 |
Neutron Mass | m_n | 1.674927471e-27 | m_n = 1.674927471e-27 |
Electric Constant | oofpez | 8.9875517873681764e9 | oofpez = 8.9875517873681764e9 |
Permitivity of Free Space | e0 | 8.854187817e-12 | e0 = 8.854187817e-12 |
Magnetic Constant | km | 1e-7 | km = 1e-7 |
Vacuum Permeability | mu_0 | 1.2566370614e-6 | mu_0 = 1.2566370614e-6 |
Proton Charge | e | 1.602176565e-19 | e = 1.602176565e-19 |
Electron Volt | eV | 1.602176565e-19 | eV = 1.602176565e-19 |
Avogadro's Number | N_A | 6.0221409e23 | N_A = 6.0221409e23 |
Proton Radius | R_p | 0.8775e-15 | R_p = 0.8775e-15 |
E to ionize air | E_ionize | 3e6 | E_ionize = 3e6 |
Earth's Magnetic Field | B_Earth | 2e-5 | B_Earth = 2e-5 |
Connectedness
- How is this topic connected to something that you are interested in?
- How is it connected to your major?
- Is there an interesting industrial application?
History
Put this idea in historical context. Give the reader the Who, What, When, Where, and Why.