The binary digit at the beginning is representative of each of the four forces in the universe.
Gravity, Weak, Electromagnetic, Strong
0100 - 2 - W Boson, Z Boson
0010 - 4 - Photon
1110 - 7 - Lepton
0001 - 8 - Gluon
1111 - 15 - Quark
Numeric Ascending
0000 - 0 -
1000 - 1 -
0100 - 2 - W Boson, Z Boson
1100 - 3 -
0010 - 4 - Photon
1010 - 5 -
0110 - 6 -
1110 - 7 - Lepton
0001 - 8 - Gluon
1001 - 9 -
0101 - 10 -
1101 - 11 -
0011 - 12 -
1011 - 13 -
0111 - 14 -
1111 - 15 - Quark
Gravity
1000 - 1 -
1100 - 3 -
1010 - 5 -
1110 - 7 - Lepton
1001 - 9 -
1101 - 11 -
1011 - 13 -
1111 - 15 - Quark
Weak
0100 - 2 - W Boson, Z Boson
1100 - 3 -
0110 - 6 -
1110 - 7 - Lepton
0101 - 10 -
1101 - 11 -
0111 - 14 -
1111 - 15 - Quark
Electromagnetic
0010 - 4 - Photon
1010 - 5 -
0110 - 6 -
1110 - 7 - Lepton
0011 - 12 -
1011 - 13 -
0111 - 14 -
1111 - 15 - Quark
Strong
0001 - 8 - Gluon
1001 - 9 -
0101 - 10 -
1101 - 11 -
0011 - 12 -
1011 - 13 -
0111 - 14 -
1111 - 15 - Quark
Thursday, February 25, 2010
Gauge Bosons
Gauge bosons are a type of elementary particle. They are bosons, which means that they are particles with 1 spin that follow Bose–Einstein statistics.
Gauge bosons are carriers of three of the four fundamental forces (Weak, Electromagnetic, Strong) in the univers. It is not known if Gravity is carried by a gauge boson or another hypothetical particle.
Types of Gauge Bosons
W boson - Weak force
Z boson - Weak force
Photon - Electromagnetic force
Gluon - Strong force
Gauge bosons are carriers of three of the four fundamental forces (Weak, Electromagnetic, Strong) in the univers. It is not known if Gravity is carried by a gauge boson or another hypothetical particle.
Types of Gauge Bosons
W boson - Weak force
Z boson - Weak force
Photon - Electromagnetic force
Gluon - Strong force
Glouns
Glouns are a type of elementary particle. They are gauge bosons, which means that are particles with 1 spin that follow Bose–Einstein statistics.
Carrier of Strong force
Forces Participating in: Strong
Not Participating in: Gravity, Weak, Electromagnetic
Types of Gluons
Carrier of Strong force
Forces Participating in: Strong
Not Participating in: Gravity, Weak, Electromagnetic
Types of Gluons
Quarks
Quarks are a type of elementary particle. They are fermions, which means they are particles with 1/2 spin and are subject to Fermi-Dirac statistics.
Forces Participating in: Gravity, Weak, Electromagneti, Strong
Not Participating: None
Forces Participating in: Gravity, Weak, Electromagneti, Strong
Not Participating: None
Fermions
Fermions are a type of elementary particle. They have 1/2 spin, and obey Fermi-Dirac statistics.
One of the defining properties that distinguishes fermions from bosons is that no two fermions may share a quantum state. As quantum state includes dimensions, no two fermion particles can occupy the same space. Bosons, on the other hand, can share quantum states with other particles, meaning multiple bosons can be in the same space at once.
One of the defining properties that distinguishes fermions from bosons is that no two fermions may share a quantum state. As quantum state includes dimensions, no two fermion particles can occupy the same space. Bosons, on the other hand, can share quantum states with other particles, meaning multiple bosons can be in the same space at once.
Wednesday, February 24, 2010
Mass to Energy Transfer
Is the transformation from mass to pure energy sufficiently stable to allow for a transfer of information regarding a life form matrix from it's massy form into energy?
If a one-for-one correlation could be made between Hadrons acting as mass and the form of energy mass becomes (mix of photons or gluons), then would it be possible to take every particle that constituted a living being, and calculate the transformation into pure energy?
If one could maintain that energy matrix in exactitude, and then transform it back into matter, then travel at the speed of light is possible. Because matter cannot be sped up to the speed of light, why not just annihilate it into pure energy? If the grid were able to be guided (meaning if conscious thought were possible), then a being going the speed of light would be able to do anything light could.
Quantum theory states that any particles going the speed of light are everywhere in the universe at once.
Non-locality is a theory that says instant communication between photons is possible.
A being made of photons, which are everywhere in the universe at once, could communicate with any other area in the universe. It would essentially replicate itself in another place, and then cease vibration in the original location. Although technically this being would be a new entity, the replication process would be perfect and indistinguishable from the original.
Can there be dirt in energy form?
Well, technically there wouldn't be "dirt" but rather a photonic/gluonic semblance of "dirt" particles that had made the transformation. It would only technically become "dirt" again when the now energy being was able to resume a massy form.
Assuming it could make the transformation back.
Could a Life Form Matrix be stable enough to allow a transformation back to mass?
If a one-for-one correlation could be made between Hadrons acting as mass and the form of energy mass becomes (mix of photons or gluons), then would it be possible to take every particle that constituted a living being, and calculate the transformation into pure energy?
If one could maintain that energy matrix in exactitude, and then transform it back into matter, then travel at the speed of light is possible. Because matter cannot be sped up to the speed of light, why not just annihilate it into pure energy? If the grid were able to be guided (meaning if conscious thought were possible), then a being going the speed of light would be able to do anything light could.
Quantum theory states that any particles going the speed of light are everywhere in the universe at once.
Non-locality is a theory that says instant communication between photons is possible.
A being made of photons, which are everywhere in the universe at once, could communicate with any other area in the universe. It would essentially replicate itself in another place, and then cease vibration in the original location. Although technically this being would be a new entity, the replication process would be perfect and indistinguishable from the original.
Can there be dirt in energy form?
Well, technically there wouldn't be "dirt" but rather a photonic/gluonic semblance of "dirt" particles that had made the transformation. It would only technically become "dirt" again when the now energy being was able to resume a massy form.
Assuming it could make the transformation back.
Could a Life Form Matrix be stable enough to allow a transformation back to mass?
Friday, February 19, 2010
Leptons
Leptons are a type of elementary particle. They are fermions, which means they are particles with 1/2 spin and are subject to Fermi-Dirac statistics.
Forces Participating in: Gravity, Weak, Electromagnetic
Not Participating: Strong
Forces Participating in: Gravity, Weak, Electromagnetic
Not Participating: Strong
Elementary Particles
The building blocks of the universe. Elementary particles are those that cannot be broken down into any further parts. They are quanta, and as such fall into the study of quantum physics.
Types of Elementary Particles
Fermions
Types of Elementary Particles
Fermions
- Electron
- Electron Neutrino
- Muon
- Muon Neutrino
- Tauon
- Tauon Neutrino
- Quarks
- Up
- Down
- Charm
- Strange
- Top
- Bottom
- Bosons
- Photon
- W Boson
- Z Boson
- Gluon
The Movement of People and the Effect on the Planet's Magnetic Field
People have electromagnetic fields. So what happens to the planet's EM field as populations of people move across the surface? What kind of interactions does this cause?
What is a Quantum?
Quantum simply refers to, the smallest thing that can't be further divided.
A quantum (plural quanta) can refer to anything within a particular system. As the smallest divisible unit, one suddenly sees that every formula regarding that unit will be multiples of that unit itself.
Think about it this way: Take the numbers starting at 1 and counting up. 1, 2, 3 etc. Using the number 1 as your base unit. Every number is simply 1 plus 1 plus 1....etc. So the number 24 is made up of twenty four 1s. Now imagine that it is impossible to divide 1 into and type of fraction. 1 cannot be divided. Got it?
In this example, 1 is a quantum.
Now think about this. What is the smallest building block in the universe? Once upon a time, people believed it was the atom. Then, they discovered neutrons and protons and electrons made up atoms. So they thought protons were the building blocks. But then they realized protons were made up of quarks. They haven't been able to break down a quark, and so quarks are the building blocks of the universe.
So quantum physics is all about quarks? Well, turns out quarks aren't alone in the universe.
There are also leptons and bosons.
A quantum (plural quanta) can refer to anything within a particular system. As the smallest divisible unit, one suddenly sees that every formula regarding that unit will be multiples of that unit itself.
Think about it this way: Take the numbers starting at 1 and counting up. 1, 2, 3 etc. Using the number 1 as your base unit. Every number is simply 1 plus 1 plus 1....etc. So the number 24 is made up of twenty four 1s. Now imagine that it is impossible to divide 1 into and type of fraction. 1 cannot be divided. Got it?
In this example, 1 is a quantum.
Now think about this. What is the smallest building block in the universe? Once upon a time, people believed it was the atom. Then, they discovered neutrons and protons and electrons made up atoms. So they thought protons were the building blocks. But then they realized protons were made up of quarks. They haven't been able to break down a quark, and so quarks are the building blocks of the universe.
So quantum physics is all about quarks? Well, turns out quarks aren't alone in the universe.
There are also leptons and bosons.
Thursday, February 18, 2010
Crazy thoughts
Crazy, I tell you - crazy!
This is the place for questions or thoughts with unknown actuality. There are some crazy ones that I've come up with...
Questions and Theories
Light is a localized universal occurrence.
Are fermions spheres?
Does the universe repeat?
Can time be created or destroyed?
The universe is one huge grid of dimensions.
A grid of harmonics.
Are there particles with 1/4 or 1/8 spin?
Are the laws of physics carried by the quanta of the universe, or is it a framework that carries the particles of the universe in it?
This is the place for questions or thoughts with unknown actuality. There are some crazy ones that I've come up with...
Questions and Theories
Light is a localized universal occurrence.
Are fermions spheres?
Does the universe repeat?
Can time be created or destroyed?
The universe is one huge grid of dimensions.
A grid of harmonics.
Are there particles with 1/4 or 1/8 spin?
Are the laws of physics carried by the quanta of the universe, or is it a framework that carries the particles of the universe in it?
About half a quantum
Half a quantum is a site dedicated to simplifying the principles of Quantum Mechanics and other esoteric sciences. The reason for this was a sudden realization that quantum theory dates back to 1838...and if you ask someone about quantum physics, the answer is probably something like "I don't know anything about quantum physics."
Why is it that a science that saw the fruits begin to grow in the early 20th century, a hundred years later still has very little idea of what it actually is?
One reason is that the very concept of quanta is so simple that it is very difficult to explain. Einstein had some very good stories to explain some things. And that is what is needed in the pursuit of quanta - stories that explain how they work in real life possibilities.
Why is it that a science that saw the fruits begin to grow in the early 20th century, a hundred years later still has very little idea of what it actually is?
One reason is that the very concept of quanta is so simple that it is very difficult to explain. Einstein had some very good stories to explain some things. And that is what is needed in the pursuit of quanta - stories that explain how they work in real life possibilities.
Half a quantum
In Quantum Mechanics, you study the smallest possible unit within a system. A photon is the smallest divisible unit of light, so a photon is a quantum of light (not to be confused with the plural, "quanta"). All calculations are thus based on integer multiples of the basic unit.
So you can't break down a quantum any further. Because while a quantum may have mass, that mass cannot be divided. Thus the joke, So you take half a quantum...
So you can't break down a quantum any further. Because while a quantum may have mass, that mass cannot be divided. Thus the joke, So you take half a quantum...
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