Difference between revisions of "Eyesis4Pi Pixels Calculation"
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==Calculations== | ==Calculations== | ||
| − | The equirectangular projection size: '''14268x7135''' which equals to ~100MPix but since it's a projection the real pixels are stretched - | + | Combined number of pixels: '''120MPix'''<br/> |
| + | The equirectangular projection size: '''14268x7135''' which equals to ~100MPix but since it's a projection the real pixels are stretched - their size is close to the real ones when on the virtual sphere. At the same time the equatorial line of the projection consists of real pixels since they are projected as they are due to the projection's properties. | ||
<font size='2'> | <font size='2'> | ||
L = 2*pi*R (1) | L = 2*pi*R (1) | ||
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(1)=>(2) S(sphere) = L^2/pi = 14268^2/3.14 ~ '''64.8MPix''' | (1)=>(2) S(sphere) = L^2/pi = 14268^2/3.14 ~ '''64.8MPix''' | ||
</font> | </font> | ||
| + | [[Category:Eyesis4Pi]] | ||
Latest revision as of 14:15, 24 October 2012
Calculations
Combined number of pixels: 120MPix
The equirectangular projection size: 14268x7135 which equals to ~100MPix but since it's a projection the real pixels are stretched - their size is close to the real ones when on the virtual sphere. At the same time the equatorial line of the projection consists of real pixels since they are projected as they are due to the projection's properties.
L = 2*pi*R (1) S(sphere) = 4*pi*R^2 (2) (1)=>(2) S(sphere) = L^2/pi = 14268^2/3.14 ~ 64.8MPix
