Particles MIcroscope For Any Microscopy

 The microscope produce picture and videos at different magnifications such as the particles emitter emitting particles at 30 times a second means 30 frames per second(or more frames per seconds), particles such as the electron use in electron microscope or smaller family of particles smaller particles use same family with electron use in electron microscope. The pixel is one particle emitter is equal to 1 pixel, 10000 particle emitter and emittted are 10,000 pixels, the particles will bounce back and travel longer distance to particles receiver when bounce back, another machine  is use to improve the bounce back travel distance of the particle. They can inverse the grayscale produce such as the white change to black pixel, black change to white pixel, scale is given for reference. Some particles the penetrative xray characteristics are studies to make particles which can x ray, making x ray microscope, such as deshelling the metals specimens particle outer shell to see, count the electron, proton neutron number, the penetrative characteristic can be adjusted so they will give 'deshelled view of the metals particle, can see chemical reactions, hazards chemicals, video of chemical reactions, hazards chemicals. You can compare the specimen result from its chemical properties tests and physical properties tests to know the what are the chemicals. For particles with x ray characteristic you will need to test its x ray characteristic of the particles, then you adjust the adjustable x ray penetrative characteristic, such as looking at layering of elements particles, etc.

Particles are just the same as wave particles, they travel at straight angle, arrive at receivers at straight angle, even though some researcher say they move like zig zag move like wavy, depends on the way you study them.

The penetration degree, power of the particles, particles with x ray capabilities are adjustable with machines and adjusters with settings.

We find out particles travel, bounce back in straight line like the waves writing below, which means you will have receivers just like the waves below at quoted "" writing:

"We find out waves travel in straight line like in the picture below,

 

The space shuttle has mix of 50% receivers with motors and 50 percent of receivers without motors, the emitter with motorized receivers, the nose of space shuttle and the front part of space shuttle has mix of receivers, motorized receivers, emitters, the space shuttle 6 sides with the wings have the same mix of 50% receivers with motors and 50 percent of receivers without motors, the emitter with motorized receivers, there are different screens for the emitters and receivers showing where the obstacles distance of obstacles and the location of space shuttles, how to avoid the obstacles, when the space shuttle travel fast the receivers at the back still recognize the waves and know which emitters emit the waves in the waves machines data they are emitting slightly different waves,   please update the same thing with the satellites and waves products after this and determine how much slightly different waves recognized by the receives required by the emitters."