# Difference between revisions of "Methods to determine the size of an object in microns"

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− | ===Mathematically== | + | ===Mathematically=== |

− | Pixels on our CCD are 6.45um. | + | Pixels on our CCD are 6.45um. The size (in microns) of one pixel in an image will depend on how much the image was magnified before reaching the CCD: |

− | + | <math>\mbox{Pixel size} = \frac{6.45um}{\mbox{total magnification}}</math> | |

− | + | Assuming that the magnifier is at position 1x (not 1.5x), this formula gives us: | |

+ | |||

+ | 60x : 0.1075 um/pixel or 9.30 pixels/um | ||

+ | 40x : 0.1613 um/pixel or 6.21 pixels/um | ||

+ | 20x : 0.3225 um/pixel or 3.10 pixels/um | ||

+ | 10x : 0.645 um/pixel or 1.55 pixel/um |

## Revision as of 09:42, 11 August 2005

### Mathematically

Pixels on our CCD are 6.45um. The size (in microns) of one pixel in an image will depend on how much the image was magnified before reaching the CCD:

**Failed to parse (MathML with SVG or PNG fallback (recommended for modern browsers and accessibility tools): Invalid response ("Math extension cannot connect to Restbase.") from server "https://api.formulasearchengine.com/v1/":): {\displaystyle \mbox{Pixel size} = \frac{6.45um}{\mbox{total magnification}}}**

Assuming that the magnifier is at position 1x (not 1.5x), this formula gives us:

60x : 0.1075 um/pixel or 9.30 pixels/um 40x : 0.1613 um/pixel or 6.21 pixels/um 20x : 0.3225 um/pixel or 3.10 pixels/um 10x : 0.645 um/pixel or 1.55 pixel/um