Difference between revisions of "Team:Cambridge-JIC/Description"
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− | <div style="float:left;width: | + | <div style="float:left;width:20%"><p><span class="dark" style="font-size:170%">The chassis</span></div> <div style="float:right;width:80%">is 3D printed, allowing simple modification. The plastic is cheap, biodegradable and flexible. Stage translation, based on work by Dr Richard Bowman, makes use of the flexibility to give fine control. </p></div> |
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− | <p><span class="dark" style="font-size:170%">The mechanics</span> of the stage can be automated using stepper motors. The user has remote control of the microscope, and can introduce tailor-made programs to facilitate their experiments.</p> | + | <div style="float:right;width:20%"><p><span class="dark" style="font-size:170%">The mechanics</span></div> <div style="float:left;width:80%">of the stage can be automated using stepper motors. The user has remote control of the microscope, and can introduce tailor-made programs to facilitate their experiments.</p></div> |
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<p><span class="dark" style="font-size:170%">The optics</span> are low-cost, low-energy and modular. Illumination using LEDs means reducing power consumption and cost. A Raspberry Pi camera makes the microscope digital, and an epi-fluorescence cube makes imaging GFP a reality. With sub-micrometer resolution in brightfield and darkfield modes, you are ready to image single cells or whole tissues.</p> | <p><span class="dark" style="font-size:170%">The optics</span> are low-cost, low-energy and modular. Illumination using LEDs means reducing power consumption and cost. A Raspberry Pi camera makes the microscope digital, and an epi-fluorescence cube makes imaging GFP a reality. With sub-micrometer resolution in brightfield and darkfield modes, you are ready to image single cells or whole tissues.</p> |
Revision as of 11:58, 17 September 2015