Difference between revisions of "Team:Cambridge-JIC/Measurement"
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<p> [1] Wise, R. and Hoober, J. (2006). The structure and function of plastids. Dordrecht: Springer. <br> [2] Encyclopedia Britannica, (2015). bacteria :: Diversity of structure of bacteria. <a href="http://www.britannica.com/science/bacteria/Diversity-of-structure-of-bacteria" class="blue">[online]</a> [Accessed 30 Jul. 2015].</p> | <p> [1] Wise, R. and Hoober, J. (2006). The structure and function of plastids. Dordrecht: Springer. <br> [2] Encyclopedia Britannica, (2015). bacteria :: Diversity of structure of bacteria. <a href="http://www.britannica.com/science/bacteria/Diversity-of-structure-of-bacteria" class="blue">[online]</a> [Accessed 30 Jul. 2015].</p> | ||
<h3> Inverting the Lens: Why and How: </h3> | <h3> Inverting the Lens: Why and How: </h3> | ||
− | <p>The way a camera works is by focusing an image of a distant large object as a small set of points onto the CCD, which is positioned close to the lens (in its focal plane). Theoretically however, it might as well do the opposite (because light paths are reversible – a well known and intuitive physical principle): that is, inspect the CCD pixels and project their greatly enlarged image onto a distant screen. <br>The lens has a small aperture (1.25mm) at one end, and a larger one (4mm) offering a wider view angle at the other, which is required for viewing close up objects. This is normally oriented towards the CCD. <br> <center> <img src="//2015.igem.org/wiki/images/a/a2/CamJIC-CameraDiagram.JPG" style="height:250px;margin:20px"> <img src="//2015.igem.org/wiki/images/6/64/CamJIC-MicroscopeDiagram.JPG" style="height:250px;margin:20px"> </center> | + | <p>The way a camera works is by focusing an image of a distant large object as a small set of points onto the CCD, which is positioned close to the lens (in its focal plane). Theoretically however, it might as well do the opposite (because light paths are reversible – a well known and intuitive physical principle): that is, inspect the CCD pixels and project their greatly enlarged image onto a distant screen. <br>The lens has a small aperture (1.25mm) at one end, and a larger one (4mm) offering a wider view angle at the other, which is required for viewing close up objects. This is normally oriented towards the CCD. <br> </p> <center> <img src="//2015.igem.org/wiki/images/a/a2/CamJIC-CameraDiagram.JPG" style="height:250px;margin:20px"> <img src="//2015.igem.org/wiki/images/6/64/CamJIC-MicroscopeDiagram.JPG" style="height:250px;margin:20px"> </center> |
− | <br>So, if we want to image a sample on a microscope slide, we need to:</p><p><ul> | + | <br><p>So, if we want to image a sample on a microscope slide, we need to:</p><p><ul> |
<li>position the lens close to the sample – at roughly the focal distance, that is 3.6mm;</li> | <li>position the lens close to the sample – at roughly the focal distance, that is 3.6mm;</li> | ||
<li>orient the lens with its larger aperture towards the sample;</li> | <li>orient the lens with its larger aperture towards the sample;</li> |
Revision as of 11:56, 30 July 2015