The electron emits photons. I quantized the Electric field with photons. CMBR

 The electron emits photons. I quantized the Electric field with photons. CMBR

 

“The electron emits electromagnetic waves”

Adrian Ferent

 

“The positron emits electromagnetic waves”

Adrian Ferent

 

“The electron emits photons which attract positrons and repel electrons”

Adrian Ferent

 

“The positron emits photons which attract electrons and repel positrons”

Adrian Ferent

 

“I quantized the Electric field with photons”

Adrian Ferent

 

“Electric field is photons”

Adrian Ferent

 

“The photon inside the electron emits photons which attract positrons and repel electrons”

Adrian Ferent

 

“The photon inside the positron emits photons which attract electrons and repel positrons”

Adrian Ferent

 

“The cosmic microwave background radiation is photons emitted by electrons, charged particles”

Adrian Ferent

 

“All charged particles emit photons”

Adrian Ferent

 

What did you learn about the electric field?

 

The electric field or the E-field is a physical field that surrounds every electric charge and exerts force on all other charges in the field, either attracting or repelling them.

 

The electric field acts between two charges like the gravitational field acts between two masses, as they both obey an inverse-square law with distance.

 

The Coulomb law states that, for stationary charges, the electric field varies with the source charge and varies inversely with the square of the distance from the source.

 

The study of electric fields created by stationary charges is named electrostatics.

Electrostatic fields are electric fields which do not change with time, which happens when charges and currents are stationary and in that case the Coulomb law fully describes the field.

The electric field can be visualized with a set of lines, a concept introduced by Michael Faraday. The field's strength is proportional to the density of the lines.

The field lines are the paths that a point positive charge would follow as it is forced to move within the field, similar to trajectories that masses follow within a gravitational field.

 

The electric field is defined mathematically as a vector field.

 

The Coulomb force on a charge of magnitude q at any point in space is equal to F=qE, the product of the charge and the electric field at that point.

 

Because of the linearity of Maxwell's equations, electric fields satisfy the superposition principle:

E(x) = E1(x)+E2(x)

 

This means the total electric field, at x, is equal to the vector sum of the electric fields at that point due to the individual charges.

The total field is then found by integrating over the volume of the charge distribution.

 

Φ the electric potential, E = -Ñ Φ is analogous to the gravitational potential. Mass is sometimes called ‘gravitational charge’.

 

This implies similarities between the electric field E and the gravitational field g or their associated potentials.

 

A proton is a subatomic particle, symbol p with a positive electric charge of +1e elementary charge.

The neutron is a subatomic particle, symbol n, which has a neutral (not positive or negative) charge.  The neutron is not affected by electric fields.

The protons within the nucleus are repelled by the long-range electromagnetic force, but short-range, nuclear force binds the nucleons closely together. 

A free neutron is unstable, decaying to a proton, electron and antineutrino with a mean lifetime close to 15 minutes.

 

The positron is the antiparticle of the electron. The positron has an electric charge of +1 e. When a positron collides with an electron, annihilation occurs. If this collision occurs at low energies, it results in the production of two photons.

 

All physicists, all scientists, all Nobel Laureates, your professors…can not explain this thing: rub a comb through your hair and use it to lift pieces of paper.

 

The electrons do repel each other.

An electron has the opposite charge properties to a positive charge.

 

 So an electron will move away from another negative charge, and towards a positive charge. The force experienced by a charge is F=E⋅q

 

In Ferent Quantum Gravity:

 

“The electron is composed of a photon and a Dark Matter electron”

Adrian Ferent

 

“The positron is composed of a photon and a Dark Matter electron”

Adrian Ferent

 

That is why:

 

“The electron emits electromagnetic waves”

Adrian Ferent

 

“The positron emits electromagnetic waves”

Adrian Ferent

 

“The electron emits photons which attract positrons and repel electrons”

Adrian Ferent

 

That is why electrons do repel each other.

 

“The positron emits photons which attract electrons and repel positrons”

Adrian Ferent

 

“I quantized the Electric field with photons”

Adrian Ferent

 

“I quantized the Gravitational field with gravitons”

Adrian Ferent

 

“Electric field is photons”

Adrian Ferent

 

“The photon inside the electron emits photons which attract positrons and repel electrons”

Adrian Ferent

 

“The photon inside the positron emits photons which attract electrons and repel positrons”

Adrian Ferent

 

CMBR:

The CMB is cosmic background radiation filling all space. The cosmic microwave background is thought to be leftover radiation from the Big Bang

 

In Ferent Quantum Gravity the CMB is not the leftover radiation from the Big Bang!

 

“The cosmic microwave background radiation is photons emitted by electrons, charged particles”

Adrian Ferent

 

I discovered what the electron and the positron are.

 

“All charged particles emit photons”

Adrian Ferent

 

482. I am the first who discovered that the electron emits electromagnetic waves

 

483. I am the first who discovered that the positron emits electromagnetic waves

 

484. I am the first who discovered that the electron emits photons which attract positrons and repel electrons

 

485. I am the first who discovered that the positron emits photons which attract electrons and repel positrons

 

486. I am the first who quantized the Electric field with photons

 

487. I am the first who discovered that the Electric field is photons

 

488. I am the first who discovered that the photon inside the electron emits photons which attract positrons and repel electrons

 

489. I am the first who discovered that the photon inside the positron emits photons which attract electrons and repel positrons

 

490. I am the first who discovered that the cosmic microwave background radiation is photons emitted by electrons, charged particles

 

491. I am the first who discovered that all charged particles emit photons

 

https://www.researchgate.net/publication/350876367_The_electron_emits_photons_I_quantized_the_Electric_field_with_photons_CMBR