Dirt-cheap microscopes on chicken, frank, hamburger, ham, broccoli, oat, human blood
Hi, my name is Allen Young, I’m a transhumanistic Asian-American man.
One major goal I pursue is developing the human immortality biotech that I envision, according to my plan in my book, The Future; I may never succeed at it, but no matter what the result maybe, I will have learned, hopefully discovered, documented, published, and shared many wonderful things, in my pursuit of developing the human immortality biotech, according to my plan in my book, The Future. Whether I succeed or not, pursuing developing the human immortality biotech is one thing I really want to do; I think enabling biotechnological human immortality is a wonderful goal to pursue in advancing technology.
One requirement I see in enabling the human immortality biotech is developing (and commercializing) a deep tissue 3D-scanner microscope technology that can directly observe and record all of the 37 trillion cells and their connections in the human body. So, I work on developing (and commercializing) a deep tissue 3D-scanner microscope technology that can 3D-scan the entire human body at microscopic level and perhaps even nanoscopic level, which nobody has invented (and commercialized) yet.
As my first step in developing a deep tissue 3D-scanner microscope technology, I’ve tried out the cheapest optical microscopes available in market today.
I bought this 60X-magnification smartphone clip-on microscope with US$11 at Amazon.com on January 15, 2021; I bought this 1600X-magnification USB digital optical microscope with US$16 at Ebay.com on December 7, AD 2020. Both microscopes are made in China, and they’re probably the cheapest microscope you can buy in America and elsewhere in the world.
I wanted to know what I would see under the cheapest microscopes available in the market when I use them on different types of biomatter, so I did the experiment.
As specified in my book, The Future, one goal I have is 3D-scanning, photographing, and publishing entire human brains at microscopic level with all the human-brain neurons, axons, dendrites, and synapses visible in the 3D human brain microscopic photographs. Experimenting with these dirt-cheap China made microscopes is a start.
I’ve taken chicken, frank, hamburger, ham, broccoli, oat, and human blood microscope photos using these dirt-cheap microscopes.
For the human blood, I’ve used a cheap lancing device at Amazon that cost US$6.
I drew my own blood for doing this scientific experiment. With this, now I have a public record and proof that shows I have literally shed blood for the sake of advancing science.
This is the microscope calibration ruler printout that came with the dirt-cheap USB digital optical microscope. This microscope calibration ruler printout photo was taken with my smartphone, Samsung Galaxy Note 10+; notice how visible the 0.03 mm or 30 micron line is. The naked human eye can see a width as small as 30 micron or micrometer, or even smaller. Most mammalian cells are between 10 to 100 µm in diameter, so human eyes can see most mammalian cells; however, in nature, most cells are transparent and without color—so cell staining, coloring or marking is required to see cells with human eyes or an optical microscope.
This is the microscope calibration ruler seen with the 1600X-magnification USB digital optical microscope, that cost US$16. Note how easily visible 1/10 of a millimeter, 0.1 mm, or 100 micron is. it looks like seeing 0.01 mm or 10 micron can be done with this US$16 USB digital optical microscope made in China, although it seems seeing 0.001 mm or 1 micron can be difficult with this dirt-cheap digital optical microscope.
These are all the biomatter samples on microscope slides to microscopically photograph with the dirt-cheap microscopes. Chicken, frank, hamburger, ham, broccoli, oat, and my human blood.
This is a piece of chicken breast seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of chicken breast seen with the 1600x-magnification USB digital optial microscope.
This is a piece of frank seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of frank seen with the 1600x-magnification USB digital optial microscope.
This is a piece of hamburger patty seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of hamburger patty seen with the 1600x-magnification USB digital optial microscope.
This is a piece of ham seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of ham seen with the 1600x-magnification USB digital optial microscope.
This is a piece of broccoli seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of broccoli seen with the 1600x-magnification USB digital optial microscope.
This is a piece of oat seen with the 60X-magnification smartphone clip-on microscope.
This is a piece of oat seen with the 1600x-magnification USB digital optial microscope.
This is my human blood seen with the 60X-magnification smartphone clip-on microscope.
This is my human blood seen with the 1600x-magnification USB digital optial microscope.
No cells are visible, even though they are big enough to be seen with the 1600x-magnification USB digital optical microscope.
In the next dirt-cheap microscopy experiment, I’ll look into cell staining or coloring for making dead animal and plant cells visible under optical microscope. For now, I don’t want to get into staining live cells, just yet.
I’ll eventually get into 3D-microscoping all the 37 trillion cells and their connections in the human body, with all the tissues, cells, blood vessels, and nerves in the human body photographed at the microscopic level, and published online.
If you haven’t already, visit Robocentric.com/Future, and buy and read my book, titled The Future, to learn how I advance artificial intelligence, robotics, human immortality biotech, and mass-scale outer space humanity expansion tech.
If you would like to support what I do, make donations at Robocentric.com/Donation.
