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This is the first image from my working Lego microscope. Made with a couple of Scooby Doo magnifying glasses and a light brick from the POTC lighthouse. I need to build the rest of the mechanism but it's off to a good start.
this is a specimen of Expectorii maltacopescado (magnified 1011½x) with clearly identifiable nucleus, hypochondria, capacitors, noisegate, and fignuts.
it lives in the human digressive system, and typically spreads through sexual tension and not looking both ways when crossing a one-way street.
its favourite colour is brouwn.
"Infusoria Stentor" est un micro-organisme ciliés en forme de trompette. Son nom fait référence à Stentor, crieur de l'armée des Grecs lors de la guerre de Troie. Il vit essentiellement en eaux douces et sa longueur peut atteindre 3 à 5 mm, ce qui le fait considérer comme le « géant » des protozoaires.
Microscope lens setup. Effectively extension tubes and a extension tube to RMS cone adapter giving approx 160mm from focal plane to objective. A USB mini LED lamp fed from a rechargeable battery block (that goes in my pocket). The disc near then of the cone is actually a twin flash mount but comes in handy to rest the camera on when taking shots of subjects on hard surfaces
The only thing that does not work in this microscope, is the optics... Although LEGO has produced a magnifying glass brick, I never even took an attempt at getting something between a 20- and 600-fold magnification from them...
This is a run-of-the-mill inverted microscope; an instrument you will find on any laboratory where tissue cultures are handled. It is inverted because with a normal microscope one looks down on the specimen. An inverted microscope allows the user to look from below the sample. With the thick dishes, flasks and plates used for tissue culture, and with a volume of nutrients on top of it, a lense can come a lot closer to the specimen from below! Getting closer, means higher magnifications are possible.
It’s a digital microscope and I had hoped I could plug it right into my iPhone but I can’t. But I did go online and found a way to get it to woke with my Mac laptop. It’s all geared to a PC world. Pictures to follow. Really steep learning curve, especially those HS biology microscope moving skills
Issu d'un prélèvement effectué vers 1700m d'altitude, au niveau du déversoir de l'étang d'Artax gelé. www.flickr.com/photos/philgar/51848580140/in/dateposted/
Was lucky enough to have a rotifer egg hatch - here is a shot 'before' -- ( a jpeg straight from camera.)
Sometimes I over-think details in life to the point where I am practically unable to function. I'm trying to do that less. : )
(My father was a forensic scientist. This is one of his old microscopes. )
Some microscopes that were in the corner of a lab that I interned at a couple of summers ago.
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The research institute needs a microscope repaired. It should be an easy task.
The full size image has some interesting reflections of the floor on the hair.
This is the binocular boom microscope with zoom lens, which I used for almost all of the RAM wire soldering.
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Caffeine crystals by Light Microscopy @ 4X Magnification, captured with Nikon D5300 and Radical RXL-4T microscope.,
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