We don’t have to comprehend quantum physics totally in order to appreciate it. Even those who have devoted their lives to the study of the universe and its atomic structure will admit that lots of mysteries remain. Well, I enjoy mysteries, so let’s set the scene for this one …
There’s a Big Bang. “Whoosh!” go all the particles. Much swirling commences. Fast forward 12 billion years (offer or take a billion) to present day. People all over the world watch sci-fi movies, checked out physics texts, go to harmonic convergence gatherings, study nanotechnology, and gaze at the stars. Our questions: How did we get here? Who are we? Where is here? Why? What next?
If you’re expecting quantum theory to respond to those concerns, you’re going to be disappointed. Nevertheless, it does give us some heady new ways to anticipate those responses.
He called these little pieces “atoms” for the Greek phrase “a-tomos” which indicates “uncuttable”. Atoms are themselves made up of small particles we’ve called neutrons, neutrinos, electrons and protons.
Because we keep finding particles inside particles and adding brand-new names to pieces of atoms, it’s much easier to refer to the smallest chunks into which something can be divided as quanta. When we talk about quantum theory, we’re just referring to the whole set of concepts surrounding the microscopic world of atoms.
Along comes Albert Einstein, who recognizes that this whole idea of quantum physics turns classical physics on its head and spins it around. These small quanta are strange. If a particle is traveling from point A to point B, we can think its course, however the tinier the particle, the less sure we are that exact path is the one taken.
Think that’s radical? Back in 1957, a Princeton college student called Hugh Everett proposed what is called the “Many Worlds” interpretation. Inning accordance with his dissertation, quantum theory (the variable habits of atoms) holds true not simply for atoms but for whatever– like tables, flower pots, SUVs, and even individuals. Everett was in fact specifying that these big things could, like tiny pieces of atoms, remain in numerous locations simultaneously.
Everett assumed that if you observe a sports utility automobile (SUV) which is in two locations at as soon as, your mind will also end up in 2 states at when– one which views that SUV in one place, and another which views it in another location! Really, there would be 2 versions of you and each one would perceive a world in which there is a various variation of the SUV.
This whole idea of several realities was a huge benefit for sci-fi authors. The fact is that these concepts are normally thought about possible but not in relation to the massive world. We do not have a way of manifesting alternate universes full of several SUVs (luckily) so we cannot actually test it.
There is one location of the Big World (that which we can see without microscopes) that will be totally revolutionized by quantum theory, and that’s the advancement of quantum computer systems. In quantum computers, experimenters are making the most of the ability of particles such as atoms to be in many places at once to do lots of estimations concurrently.
Speak about high-speed connections. Quantum computer systems could resolve in seconds issues that would take conventional computer systems millions of years to decipher.
Exactly what will these quantum computers do? The shocking truth is that a quantum computer system will really carry out in different realities– it will be appealing huge numbers of versions of other computer systems in alternate universes.
Freaky, huh? But genuine, and coming soon– or at least, eventually.
Next time you discover yourself fantasizing about how your life could be various, ramp it up a notch. Think of quantum physics and the Many Worlds theory. Consider that your life might already be various in some other reality! If it’s possible that it exists precisely as you dream it, there’s no factor you cannot create it here. And heck, you just need to do it in one universe. Piece of cake!
Make that multiple pieces.
Given that we keep finding particles inside particles and adding new names to pieces of atoms, it’s easier to refer to the tiniest portions into which something can be divided as quanta. When we talk about quantum theory, we’re simply referring to the whole set of concepts surrounding the tiny world of atoms.
According to his dissertation, quantum theory (the variable behavior of atoms) is true not simply for atoms however for everything– like tables, flower pots, SUVs, and even individuals. The incredible reality is that a quantum computer system will in fact perform in different realities– it will be engaging big numbers of versions of other computer systems in alternate universes.
Believe about quantum physics and the Many Worlds theory.