Maxwell’s equations are wrong, because E and B are discrete functions

 

“Maxwell’s equations are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time”

Adrian Ferent

 

“Maxwell’s equations are wrong, because the Electric field E and the Magnetic field B are not continuous functions”

Adrian Ferent

 

“The Electric field E and the Magnetic field B are discrete functions”

Adrian Ferent

 

Faraday predicted a mysterious, invisible “electrotonic state” surrounding the magnet, what we would today call a field and changes in this electrotonic state are what cause electromagnetic phenomena.

Maxwell's original formulation of his electromagnetic theory contained 20 equations.

When Maxwell’s theory made its first appearance, almost nobody was paying attention.

 

Maxwell's equations marked the unification of a theory for previously separately described phenomena magnetism and electricity, are a set of coupled partial differential equations that, together with the Lorentz force law form the foundation of classical electromagnetism.

They describe how electric and magnetic fields are generated by charges, currents and changes of the fields.

 

The partial derivative is:

 

Multiplying by ħ implies Planck units, in this case Planck time, but ‘b’ cannot 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.

In the case of this limit, ‘b’ must be much smaller than Planck time.

 

This means:

 

“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.

 

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

Adrian Ferent

 

“Schrödinger equation and Dirac equation are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time”

Adrian Ferent

 

The same thing in the case of 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.

 

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

Adrian Ferent

 

In the same way:

 

“Maxwell’s equations are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time”

Adrian Ferent

 

A differentiable function of one real variable is a function whose derivative exists at each point in its domain. The graph of a differentiable function has a non-vertical tangent line at each interior point in its domain.

A differentiable function is necessarily continuous.

A continuous function need not be differentiable.

 

A discrete function is a function in which the domain and range are each a discrete set of values, rather than an interval in R.

In Ferent Quantum Gravity the Electric field E and the Magnetic field B are discrete functions.

A discrete function: any change is countable and quantifiable.

 

“The Electric field E and the Magnetic field B are discrete functions”

Adrian Ferent

 

You learned from the greatest scientists, from your professors, from your books… that the Electric field E and the Magnetic field B are continuous functions!

 

This means:

 

“Maxwell’s equations are wrong, because the Electric field E and the Magnetic field B are not continuous functions”

Adrian Ferent

 

All Nobel Laureates, the scientists, your professors…did not understand the Electric field and the Magnetic field!

 

“I quantized the Magnetic field with photons”

Adrian Ferent

 

“I quantized the Electric field with photons”

Adrian Ferent

 

“Electric field is Ferent radiation”

Adrian Ferent

 

“Gravitation is Ferent radiation”

Adrian Ferent

 

“Magnetic field is Ferent radiation”

Adrian Ferent

 

539. I am the first who discovered that Maxwell’s equations are wrong because length can not be smaller than Planck length and time can not be smaller than Planck time

 

540. I am the first who discovered that Maxwell’s equations are wrong, because the Electric field E and the Magnetic field B are not continuous functions

 

541. I am the first who discovered that the Electric field E and the Magnetic field B are discrete functions

 

https://www.researchgate.net/publication/354597279_Maxwell's_equations_are_wrong_because_E_and_B_are_discrete_functions