Most recent edit on 2006-02-03 14:51:19 by TeamOverKill
Additions:
Or if you don't like maths, the calculator will do most of the calculations for you: http://www.teamcosmos.com/ke/ke.shtml∞
Deletions:
Edited on 2006-02-02 23:35:47 by BruteForceIgnorance
Additions:
To obtain a more accurate figure, EDTSim gives better results, based on your own drive train setup, and also
Deletions:
To obtain a more accurate figure, EDTSim gives better results, based on your own drive train setup, and also
Edited on 2006-02-02 23:24:14 by BruteForceIgnorance
Additions:
It is generally easier just to investigate what others with similar drive line components are using.
However, it is possible to obtain a reasonably accurate result using the relevant infomation at Paul Hills
Deletions:
It is generally easier just to investigate what others with similar drive line components are using. However,
it is possible to obtain a reasonably accurate result using the relevant infomation at Paul Hills
Oldest known version of this page was edited on 2006-02-02 23:22:41 by BruteForceIgnorance []
Page view:
Some basic Physical Principals:
Calculate robot speed:
(pi*D*RPM*60) / 100 000 = robot speed in km/h
Where: pi=3.14 . . .
D=Diameter of wheel in centimeters
RPM=Wheel rotational speed in revoloutions per minute
Calculate required battery size:
This is often no easy feat, as there are many variables that come into play, and every fight is different.
It is generally easier just to investigate what others with similar drive line components are using. However,
it is possible to obtain a reasonably accurate result using the relevant infomation at Paul Hills
A technical guide to fighting robots" http://homepages.which.net/~paul.hills/Batteries/Batteries.html∞
To obtain a more accurate figure, EDTSim gives better results, based on your own drive train setup, and also
includes a lots of other performance data.
Calculate energy of a spinning mass:
Infomation @ Paul Hills website http://homepages.which.net/~paul.hills/Spinningdisks/Disks.html