1. The Big Bang
The beginning of the universe started with the big bang. Just a black hole surrounded by space compression. The big black hole exploding was called the big bang. The black hole started the universe. When it exploded the universe came into being.
The Black Hole Exploding
The big black hole released energy in the form of lightwaves. The compression got smaller and the black hole got smaller as the black hole exploded.
Shorter Wavelengths
As the black hole exploded, and the energy came out, the wavelengths got smaller. The black hole will continue to explode until we reach 1/2 way through the universe.
Captions
1. Black sphere: Black hole.
2. Blue spheres: Compression.
3. Long waves: Large, slow wavelengths.
4. Short waves: Quicker, more energetic wavelengths.
3. Particle Creation
A lightwave that shrinks to a 1/2 photon that has compression breaks apart into two particles. Then there is a positive particle and a negative particle.
Pair Production
A photon becomes two particles.
Pair Annihilation
Two particles become a photon and the pair of particles were annihilated.
Wave/Particle Properties
A particle has an electric and magnetic wave in it. A photon has a particle shape. So, they both have wave and particle properties.
Captions
1. Top left: Yellow: Photon.
2. Top right: Yellow: 1/2 photon.
3. Orange and green arrows: Positive electric and positive magnetic fields.
4. Black and red arrows: Negative electric and negative magnetic fields.
5. Middle left: Yellow: Forming particle.
6. Orange: Positive electric field.
7. Green: Positive magnetic field.
8. Black: Negative electric field.
9. Red: Negative magnetic field.
10. Bottom left: Yellow: Positive particle.
11. Bottom right: Yellow: Negative particle.
12. Blue spheres: Compression.
5. Formation of Atoms
The particles formed; the proton, electron and neutron, formed atoms in the compression. The nucleus is compressed protons and neutrons together. Then electrons circle in different levels of compression.
Captions
1. Top left: Yellow: Proton.
2. Top middle: Black: Electron.
3. Top right: Yellow: Neutron.
4. Bottom left: Yellow: Nucleus.
5. Bottom right: Hydrogen isotope deuterium.
7. Molecule Formation
When an atom gets compressed, it joins with another atom. They share compression in levels and share electrons. H2O shares with two hydrogen atoms and one oxygen atom; and makes a molecule.
Captions
1. H2O: 3 yellow spheres: Nucleus.
2. 2 small golden spheres: Hydrogen.
3. 1 large yellow sphere: Oxygen.
4. Black spheres: Electrons.
5. Blue spheres: Compression.
9. Gravity
The three layers of the atmosphere are the three layers of compression around Earth. The first layer of compression has one oxygen as a molecule. The second one has two oxygen as a molecule. The third one has three oxygen as a molecule. Earth's gravity pushes the compression into a three layered compression.
Captions
1. Blue and green sphere: Earth.
2. Blue spheres: Gravity 1: Troposphere.
3. Blue spheres: Gravity 2: Stratosphere.
4. Blue spheres: Gravity 3: Mesosphere.
5. Blue spheres: Compression.
11. Collapse
Black holes will fall into black holes, for the 2nd half of the universe, until there is only one black hole. It will look like the big bang black hole.
1. Black spheres: Black holes.
2. Blue spheres: Compression.
2. The Lightwave
The lightwave is two electric waves and two magnetic waves repeated in reverse on the other side, to make one whole wave. A lightwave surrounded by compression is a photon. Lightwaves travel through space.
Captions
1. Black arrow: Negative electric field.
2. Red arrow: Negative magnetic field.
3. Orange arrow: Positive electric field.
4. Green arrow: Positive magnetic field.
5. Yellow orbital: Photon.
6. Blue spheres: Compression.
4. Particles Forming into Particles
A positive sub-quark surrounded by compression and a negative sub-quark surrounded by compression can come out of a photon going through particle creation. A sub-quark is the smallest particle that can be made. An electron is a sub-quark. Three sub-quarks make up one quark. Three quarks make up one proton.
Captions
1. Top left: Yellow: Positively charged sub-quark.
2. Top middle: Yellow: Negatively charged sub-quark.
3. Top left: Black: Electron.
4. Bottom left: Yellow: 3 sub-quarks making one quark.
5. Bottom right: Yellow: 3 quarks making one proton.
6. Blue spheres: Compression.
6. Electron Configuration in Atoms
The nucleus is made up of protons and neutrons. For each one proton and neutron group there is one electron. There is a separate level of compression for each electron. In neon, there are 10 protons, 10 neutrons, and 2 layers of electrons, then 2 layers of electrons, and 6 layers of electrons.
Captions
1. Neon: Yellow and gold: 10 protons and 10 neutrons.
2. Black spheres: Electrons.
3. Yellow sphere: Nucleus.
4. Blue spheres: Compression.
8. Earth Formation
Not only does water form, but large groups of molecules group together to form lots of things. Stars, planets, and everything on Earth. Large groups of molecules banded together to form the Sun. And many other groups banded together to form the other stars. The Earth formed from collected energy around the Sun. The Sun and the Earth share some of the compression, as the compression goes out from the Sun, and the Earth makes it's own compression.
Captions
1. Yellow sphere: Sun.
2. Blue and Green sphere: Earth.
3. Blue spheres: Compression.
10. Atomic Spectrum
When an atom gives off a photon, an electron has released energy as a photon. The electron, with smaller energy, travels down a level. When an electron absorbs a photon, the electron gains energy. The electron travels to a higher level. When an electron quantum jumps, it changes levels. A photon has been absorbed or emitted by the electron. An electron will travel through different compression levels to a new level in the atom.
Captions
1. Yellow sphere: Nucleus.
2. Black spheres: Electrons.
3. Yellow orbital: Photon.
4. Blue spheres: Compression.