Have you ever heard a cranky old fool explain how atoms or molecules form binary coded decimals (BCD)? Well here is your opportunity to hear a foolish explanation that will astound your imagination
1. The electrons orbit around the shell of the nucleus. The orbiting affect generates free flowing motion. Motion allows the electrons to orbit back and forth from its space. The result produces the quality of electrons becoming static or negative.
2. Conversely, the protons and neutrons are encapsulated within the shell of the nucleus. The latter offers resistance to the motion of the electrons. The result produces the quality of protons and neutrons becoming stable or positive.
3. If in the default state of the atom, we were to add the negative static affects of the electrons with the positive stable affects of the protons and neutrons the value would cancel each other out and the sum total would equal 0 electrical charges.
4. Atoms own the quality to bond with other atoms by sharing or trading the static electrons within their orbits to form molecules.
5. When atoms subtract or lend electrons away from their orbits it reduces their negative value and the byproduct are positive ionic charges.
6. Conversely, when atoms add or borrow electrons into their orbit it increases their negative value and the by-product are negative ionic charges.
7. Either of the positive or negative ionic charges is interpreted as electrical data representing the binary symbols of 0 & 1.
8. Each atom or molecule represents a single bit of binary electrical data.
9. When atoms or molecules are bundled together in combinations they form electrical bytes or binary coded decimals (BCD).
10. The BCD enables atoms or molecules to transmit signals or sounds to communicate with one another similar to Morse code.
What’s the sense of all this foolish babbling about Morse code?
Well if you understood how Morse code works then, you can learn how computers utilize BCD to communicate with one another through telephone lines, cables or satellites over the internet. They talk in a machine language that only computers can hear their sound.
I am attaching a neat link so you can hear audibles being translated into Morse code.
Related Links
http://www.chemistry.mcmaster.ca/faculty/bader/aim/
http://home.carolina.rr.com/bigbare/Index.html
http://quashnick.net/geek_stuff/binarymath.html
http://www.scphillips.com/morse/trans.html
http://www.thinkquest.org/library/site_sum.html?tname=3114&url=3114/registers.html
1. The electrons orbit around the shell of the nucleus. The orbiting affect generates free flowing motion. Motion allows the electrons to orbit back and forth from its space. The result produces the quality of electrons becoming static or negative.
2. Conversely, the protons and neutrons are encapsulated within the shell of the nucleus. The latter offers resistance to the motion of the electrons. The result produces the quality of protons and neutrons becoming stable or positive.
3. If in the default state of the atom, we were to add the negative static affects of the electrons with the positive stable affects of the protons and neutrons the value would cancel each other out and the sum total would equal 0 electrical charges.
4. Atoms own the quality to bond with other atoms by sharing or trading the static electrons within their orbits to form molecules.
5. When atoms subtract or lend electrons away from their orbits it reduces their negative value and the byproduct are positive ionic charges.
6. Conversely, when atoms add or borrow electrons into their orbit it increases their negative value and the by-product are negative ionic charges.
7. Either of the positive or negative ionic charges is interpreted as electrical data representing the binary symbols of 0 & 1.
8. Each atom or molecule represents a single bit of binary electrical data.
9. When atoms or molecules are bundled together in combinations they form electrical bytes or binary coded decimals (BCD).
10. The BCD enables atoms or molecules to transmit signals or sounds to communicate with one another similar to Morse code.
What’s the sense of all this foolish babbling about Morse code?
Well if you understood how Morse code works then, you can learn how computers utilize BCD to communicate with one another through telephone lines, cables or satellites over the internet. They talk in a machine language that only computers can hear their sound.
I am attaching a neat link so you can hear audibles being translated into Morse code.
Related Links
http://www.chemistry.mcmaster.ca/faculty/bader/aim/
http://home.carolina.rr.com/bigbare/Index.html
http://quashnick.net/geek_stuff/binarymath.html
http://www.scphillips.com/morse/trans.html
http://www.thinkquest.org/library/site_sum.html?tname=3114&url=3114/registers.html
