Thursday, May 28, 2020

The Schrödinger equation and the Dirac equation are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time


“The Schrödinger equation and the Dirac equation are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time.”
Adrian Ferent

“To quantize the energy operator, the wave function must be multiplied by ħ:”
Adrian Ferent

“The Schrödinger equation is wrong because time can not be smaller than Planck time”
Adrian Ferent

“The Schrödinger equation is wrong because length can not be smaller than Planck length”
Adrian Ferent

“The Dirac equation is wrong because length can not be smaller than Planck length and time can not be smaller than Planck time.”
Adrian Ferent

The Schrödinger equation is the most important equation in Quantum mechanics and the state of a particle is completely described by its wave function Ψ(x,t), where x is position and t is time.

The one-particle Schrödinger equation:

The one-particle Schrödinger equation is a linear partial differential equation which represents a quantized version of the total energy of a classical system evolving under a potential function V.

The energy operator:

Max Planck discovered that energy is quantized and can be emitted or absorbed only in integral multiples of a small unit of energy.

“To quantize the energy operator, the wave function must be multiplied by ħ:”
Adrian Ferent

The partial derivative is:

Multiplying by ħ implies Planck units, in this case Planck time, but ‘b’ can not be less than Planck time.

The partial derivative is wrong because ‘b’ can not be smaller than Planck time, Planck time 5.3 × 10^(-44) s. The denominator is much bigger than the numerator.
In the case of this limit, ‘b’ must be much smaller than Planck time.

This means:

“The Schrödinger equation is wrong because time can not be smaller than Planck time”
Adrian Ferent

In the same way for the kinetic energy, the partial derivative is wrong:

Multiplying by ħ implies Planck units, in this case Planck length, but ‘a’ can not be less than Planck length.

The partial derivative is wrong because ‘a’ can not be smaller than Planck length, Planck length 1.6 × 10^(-35) m.

“The Schrödinger equation is wrong because length can not be smaller than Planck length”
Adrian Ferent

The same thing in the case of the Dirac equation:

The Dirac equation

The partial derivatives are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time.

“The Dirac equation is wrong because length can not be smaller than Planck length and time can not be smaller than Planck time.”
Adrian Ferent

“The Schrödinger equation and the Dirac equation are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time.”
Adrian Ferent

This is another proof that Ferent Quantum Gravity (FQG) based on Gravitons is right and all other Quantum theories are wrong!

Because all Nobel Laureates, all scientists, your professors…did not understand Gravitation they did not understand Quantum mechanics.

“The particles oscillate along the direction of motion of the wave because they emit Gravitons”
Adrian Ferent

“What the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave”
Adrian Ferent

335. I am the first who discovered that the Schrödinger equation and the Dirac equation are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time

336. I am the first who discovered that to quantize the energy operator, the wave function must be multiplied by ħ:

337. I am the first who discovered that the Schrödinger equation is wrong because time can not be smaller than Planck time

338. I am the first who discovered that the Schrödinger equation is wrong because length can not be smaller than Planck length

339. I am the first who discovered that the Dirac equation is wrong because length can not be smaller than Planck length and time can not be smaller than Planck time



Thursday, May 14, 2020

Ferent Quantum Gravity: particles, energy have Gravity because they emit Gravitons


“Ferent Quantum Gravity: particles, energy have Gravity because they emit Gravitons”
Adrian Ferent

“Conservation of momentum - when a Graviton with negative momentum pg is emitted by the particle, another particle with the same momentum p but in opposite direction is emitted:
P = p + pg= 0 “
Adrian Ferent

“When a Graviton with negative momentum pg is emitted, the direction of the velocity vector of the particle is changed”
Adrian Ferent

“Because the particles emit Gravitons, the amplitude of their oscillation is limited”
Adrian Ferent

“The asymmetrical distributions of the elementary particles inside the objects make them oscillate”
Adrian Ferent

“The flux of Gravitons around the object is not the same, that is why the object starts to oscillate”
Adrian Ferent

“Inside the Black Holes the particles have the highest energy that is why Gravitons with highest energy are emitted by Black Holes:
E = k × Ep”
Adrian Ferent

 “The particles oscillate along the direction of motion of the wave because they emit Gravitons”
Adrian Ferent

“What the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave”
Adrian Ferent

“The particle which oscillate along the direction of motion of the wave with the wavelength λ, emits λ / lP Gravitons”
Adrian Ferent

How Gravitons are emitted:

“Conservation of momentum - when a Graviton with negative momentum pg is emitted by the particle, another particle with the same momentum p but in opposite direction is emitted:
P = p + pg= 0 “
Adrian Ferent

“The Gravitons are emitted perpendicular to the direction of motion of the wave”
Adrian Ferent

This means:

“When a Graviton with negative momentum pg is emitted, the direction of the velocity vector of the particle is changed”
Adrian Ferent

That is why:

“Because the particles emit Gravitons, the amplitude of their oscillation is limited”
Adrian Ferent

Why elementary particles, large objects oscillate?

“The asymmetrical distributions of the elementary particles inside the objects make them oscillate”
Adrian Ferent

This means:

“The flux of Gravitons around the object is not the same, that is why the object starts to oscillate”
Adrian Ferent

“Inside the Black Holes the particles have the highest energy that is why the Gravitons with highest energy are emitted by Black Holes:
E = k × Ep”
Adrian Ferent

The electron in a typical CRT may be traveling at about 20% of the speed of light.
At this speed and for short distance the wavelength of the electron is very small.

“Gravitons with highest energy are emitted by Black Holes”
 Adrian Ferent

“Because the number n of Gravitons emitted by a wave is n = λ / lp, this means particles with higher energy will emit Gravitons with higher energy”
Adrian Ferent

“The Graviton energy, E, is proportional with the particle energy Ep:
E = k × Ep “
Adrian Ferent

“Inside the Black Holes the particles have the highest energy that is why Gravitons with highest energy are emitted by Black Holes:
E = k × Ep”
Adrian Ferent

Mass and Energy are different manifestations of basically the same thing.

“Ferent Quantum Gravity: particles, energy have Gravity because they emit Gravitons”
Adrian Ferent

That is why:

All Noble Laureates, the greatest scientists, your professors did not understand Gravitation, they did not understand Quantum Gravity.

322. I am the first who discovered what the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave

323. I am the first who discovered that the particle which oscillate along the direction of motion of the wave with the wavelength λ, emits λ / lp Gravitons

This is another proof that Ferent Quantum Gravity (FQG) based on Gravitons is right and all other theories of Gravity are wrong!

328. I am the first who discovered that in Ferent Quantum Gravity: particles, energy have Gravity because they emit Gravitons

329. I am the first who discovered Conservation of momentum - when a Graviton with negative momentum pg is emitted by the particle, another particle with the same momentum p but in opposite direction is emitted:
P = p + pg= 0

330. I am the first who discovered when a Graviton with negative momentum pg is emitted, the direction of the velocity vector of the particle is changed

331. I am the first who discovered that because the particles emit Gravitons, the amplitude of their oscillation is limited

332. I am the first who discovered that the asymmetrical distributions of the elementary particles inside the objects make them oscillate

333. I am the first who discovered that the flux of Gravitons around the object is not the same, that is why the object starts to oscillate

334. I am the first who discovered that inside the Black Holes the particles have the highest energy that is why Gravitons with highest energy are emitted by Black Holes:
E = k × Ep



Tuesday, May 5, 2020

The particles oscillate along the direction of motion of the wave because they emit Gravitons


“The particles oscillate along the direction of motion of the wave because they emit Gravitons”
Adrian Ferent

“What the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave”
Adrian Ferent

“The particle which oscillate along the direction of motion of the wave with the wavelength λ, emits λ / lp Gravitons”
Adrian Ferent

“The Gravitons are emitted perpendicular to the direction of motion of the wave”
Adrian Ferent

“The number n of Gravitons emitted by a wave:

n = λ / lp “
Adrian Ferent

“Because the number n of Gravitons emitted by a wave is n = λ / lp, this means particles with higher energy will emit Gravitons with higher energy”
Adrian Ferent

“The Graviton energy, E, is proportional with the particle energy Ep:
E = k × Ep “
Adrian Ferent

A free particle is a particle that is not bound by an external force.
Particles have wave like properties. Larger particles also act like waves.
All the information about a particle is encoded in its wave function. This function evolves according to Schrödinger equation.

Wave–particle duality is an ongoing mystery in modern physics. 

The particles oscillate along the direction of motion of the wave. 

You learn from the greatest scientists, from your professors:
What causes a particle to oscillate at frequency f and wavelength λ? Who knows? It just does.

De Broglie hypothesis says that all matter has both particle and wave nature. The wave nature of a particle is quantified by de Broglie wavelength.

The wavelength λ is given by 
λ=h / p,
where p is the momentum of the particle.
All Noble Laureates, the greatest scientists, your professors did not understand what causes the free particles to oscillate at frequency f and wavelength λ, because they did not understand Gravitation.

Wave–particle duality is the theory in quantum mechanics that every particle may be described as either a particle or a wave. 

“The particles oscillate along the direction of motion of the wave because they emit Gravitons”
Adrian Ferent
“What the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave”
Adrian Ferent

How many Gravitons are emitted?

“The particle which oscillate along the direction of motion of the wave with the wavelength λ, emits λ / lp Gravitons”
Adrian Ferent

How the Gravitons are emitted?

“The Gravitons are emitted perpendicular to the direction of motion of the wave”
Adrian Ferent

Planck length:
lp = 1.616×10^(−35) m

“The number n of Gravitons emitted by a wave:

n = λ / lp “
Adrian Ferent

“Because the number n of Gravitons emitted by a wave is n = λ / lp, this means particles with higher energy will emit Gravitons with higher energy”
Adrian Ferent

This means:

“The Graviton energy E, is proportional to the particle energy Ep:
E = k × Ep “
Adrian Ferent

In Ferent Quantum Gravity the wave–particle duality is not a mystery.

“Gravitational force is mediated by gravitons faster than the speed of light, with negative momentum”
Adrian Ferent

This means:

“Gravitation is caused by negative energy”
   Adrian Ferent

Ferent Quantum Gravity explains the gravitational redshift.

The energy of the photon moving from the Sun is smaller after each photon-graviton interaction, gravitons with negative energy emitted by the Sun. After n interactions the photon energy is smaller, this means the photon frequency is smaller and this explains the gravitational redshift.

“Because the energy of the gravitons Ek is negative, the energy of the photon E after n interactions with gravitons it is smaller than the initial energy of the photon Ei.”
 Adrian Ferent

This is another proof that Ferent Quantum Gravity is right.

“Gravitational waves are carried by gravitons”
Adrian Ferent

“Einstein bent the space, Ferent unbent the space”
    Adrian Ferent

LIGO:

“Einstein’s gravitational waves do not exist, how they can detect them?”
 Adrian Ferent

Because Einstein's equivalence principle is wrong, Einstein’s gravitation theory is wrong.

“Einstein's equivalence principle is wrong because the gravitational force experienced locally is caused by a negative energy, gravitons energy and the force experienced by an observer in a non-inertial (accelerated) frame of reference is caused by a positive energy”
Adrian Ferent

I explained Gravitational lensing with Ferent Quantum Gravity:

“Because the momentum of each graviton pk is negative, the final momentum of a photon p is smaller than the initial momentum pi and the photon will move towards the source of gravitons for example a neutron star”
Adrian Ferent

321. I am the first who discovered that the particles oscillate along the direction of motion of the wave because they emit Gravitons

322. I am the first who discovered what the Gravitons are: Gravitons are emitted by particle that oscillate along the direction of motion of the wave

323. I am the first who discovered that the particle which oscillate along the direction of motion of the wave with the wavelength λ, emits λ / lp Gravitons

324. I am the first who discovered that the Gravitons are emitted perpendicular to the direction of motion of the wave

325. I am the first who discovered that the number n of Gravitons emitted by a wave:
n = λ / lp

326. I am the first who discovered because the number n of Gravitons emitted by a wave is n = λ / lp, this means particles with higher energy will emit Gravitons with higher energy

327. I am the first who discovered that the Graviton energy, E, is proportional to the particle energy Ep:
E = k × Ep