Difference between revisions of "Team:Cambridge-JIC/Notebook"

graph.commit('optics', 'Optics', $('<div>16 July 2015: Got tips on designing an Epifluorescence optical pathway from Dr Richard Bowman.</div>'));

graph.commit('optics', 'Optics', $('<div>16 July 2015: Got tips on designing an Epifluorescence optical pathway from Dr Richard Bowman.</div>'));

graph.commit('design', 'Hardware Design', $('<div>17 July 2015: Printed the new upright stage, with x- and y-axis translation systems. Also made some lens holders for our optics bench. Simon loves printing.</div><div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/b/b1/CamJIC-Notebook-Optics3.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>Some filters arrived today. These are typically used for photography - put in front of the camera flash. But we are trying to find out (using a spectrophotometer) whether they could be good enough to incorporate in a fluorescent microscope.</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/6/6f/CamJIC-Notebook-Optics1.jpg)"><div class="blur"></div><div class="profile"><h3>Optics & Hardware</h3><p>Simon testing his freshly printed lens holder. We came up with the idea to use a magnetic whiteboard as a substitute of an optical table worth thousands of pounds. It is all about the open source cheap stuff now!</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/8/8d/CamJIC-Notebook-Optics2.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>The resolution which can be achieved with a single lens with a short focal distance is amazing: the individual plastic fibres of the 3D printed parts are easily visible.</p></div></div></div>'));

graph.commit('design', 'Hardware Design', $('<div>17 July 2015: Printed the new upright stage, with x- and y-axis translation systems. Also made some lens holders for our optics bench. Simon loves printing.</div><div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/b/b1/CamJIC-Notebook-Optics3.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>Some filters arrived today. These are typically used for photography - put in front of the camera flash. But we are trying to find out (using a spectrophotometer) whether they could be good enough to incorporate in a fluorescent microscope.</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/6/6f/CamJIC-Notebook-Optics1.jpg)"><div class="blur"></div><div class="profile"><h3>Optics & Hardware</h3><p>Simon testing his freshly printed lens holder. We came up with the idea to use a magnetic whiteboard as a substitute of an optical table worth thousands of pounds. It is all about the open source cheap stuff now!</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/8/8d/CamJIC-Notebook-Optics2.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>The resolution which can be achieved with a single lens with a short focal distance is amazing: the individual plastic fibres of the 3D printed parts are easily visible.</p></div></div></div>'));

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