Mooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooore more ooooo😅❤ plsplllllllllllls😅❤
Mooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooore more ooooo😅❤ plsplllllllllllls😅❤
It's kind of a cool experiment, but anybody that interested in getting that close would normally just buy a microscope and the appropriate mounting hardware to mount a camera to it and be done with it. Still cool project.
@@NationalCapitalRegionOfManila I mean, they're designed with that capability, but with regular lens microscopes the first lens is often much less powerful and used for things like fingerprints
@@NationalCapitalRegionOfManilait's safe to assume you've never used a microscope. They zoom in on anything. From normal things you can see, to microscopic things. They have variable zoom and focus levels.
Alright, time to go full🤓mode. Technically to observe something small enough, you will need so much light, or such a powerful beam of light, it will literally make a black hole.
It's called a tripod. A must have for ultra shallow depth of field macro photography. Also, using powerful strobe lights to jack-up the f-stop and reduce ISO/raise shutter speed. May want to look up videos on shooting macro.
You won't be able to get down that small with this method, unfortunately. Without specialized optics, the image gets more fucked up as you go smaller. You can already see some very significant chromatic aberration in the photo OP took.
Thing is, you don't need DSLR + 20 extension rings, just a smartphone with ~5x optical zoom and a snap on macro lens. This simple setup allows you to observe things too small to see with the naked eye.
@@cups0213 who's trying to correct him? For all I know you would be able to see germs if you had enough of these I'm simply saying a microscope seems like an easier option
The reason is not specifically loosing light, its mainly due to the image size that ends up at the sensor. An image of a lens that is way further away from the sensor creates a big image, hence the magnification effect but the light energy passing through the lens remains the same, so the image is bigger for the same energy which in turn means less light on the actual sensor of the camera 😊
Que vídeo necessário irmão, também tenho 19 anos e frequentemente passo por diversos momentos de medo, incertezas, comparações, mae dia a dia a gente tentando melhorar em algo, desenvolver alguma coisa e tal.. não tenho certeza absoluta, mas provavelmente Deus tem ajudado não só nessa mas em todas as fases da minha vida, ele é muito bom. No mais, fica bem mano, o futuro é lindo pra nós, seu trampo no yt é show demais, não desiste..