Expressions of Lorentz transformations and contradictory summation:

Lorentz transformations express concepts of relativity involving space, time, length, mass, motion relative to an observer, and the speed of light.

The aforementioned concept holds, 

“(1) Space and time are not absolute but natural.

(2) Variation of length, time and mass with respect to the relative motion of the observer.

(3) The speed of light is constant and independent.

(4) The effect of gravitational potential difference on said transformation is questionable."

Therefore, I submit the following,

1. (i) Whether, Relativity/SR is also based on the above concept.

(ii) Whether Lorentz transformation or time distortion originate from wavelength distortion but they are not understood from wavelength distortion and so it does not follow the general rules.

(iii) Whether in the above concept it is not scientifically clear why space and time are not absolute.

(iv) Whether, in the above concept it is not scientifically clear why space and time are natural.

2. (i) Whether the change in said length is more of a relative error in the length of the physical object than the change.

(ii) Whether not only the relative motion but also the gravitational potential difference corresponds to the same error/change in length of the object.

(iii) Whether length conversion is possible only in physical objects, but not in conceptual extensions of moving reference frames.

(iv) Whether the said time conversion is more of a relative error in the corresponding time than the physical change in time.

(v) Whether not only the relative motion but also the gravitational potential difference corresponds to the same error/variation in relative time.

(vi) Whether transformation in time is possible only in physical objects, but not in conceptual extensions of relative frames of reference.

3. Whether the speed of light is constant but not independent but dependent on relativistic/gravitational effects.

(4) Whether changes in length, time and mass also be considered in gravitational aspect too, in the said concept of transformation?

Reference: https://www.techrxiv.org/authors/Soumendra_Nath_Thakur/15208633

#LorentzTransformation #Relativity

My interpretation on Lorentz Transformation:

Lorentz transformation would be applicable only on physical entities, like mass or vibrations, that too in consideration with gravitational influence on them.

Whereas, only speed, based on Doppler effect, is not sufficient to find the actual reason for such transformation in physical bodies. 

Note: In 1887, in a paper on the Doppler effect (1842) in which Voight analyzed the differential equations for oscillations in an incompressible elastic medium, Voigt established a set of transformation equations that later became known as the Lorentz transformations.

#reinterpretation #Lorentztransformation

Difference Between Organic Compounds and Inorganic Compounds:

All living things contain carbon-based compounds, making them organic. Organic compounds are obtained directly or indirectly from plants and animals. They are even employed as a source of energy by living organisms. Examples of biomolecules include carbohydrates, fats, nucleic acids, enzymes, proteins, and hydrocarbon fuels.

Whereas, inorganic chemistry deals with non-living things. Inorganic compounds are derived from minerals. Allotropes of carbon such as graphite, diamond, carbon monoxide, carbon dioxide, carbides, and, the following salts of inorganic anions such as carbonate, cyanide, cyanate, and thiocyanate. Non-metals, salts, metals, acids, bases and substances derived from single elements are examples of inorganic compounds.

#Organic #Inorganic #compounds

ResearchGate Stat on Relativistic effects on phaseshift in frequencies invalidate time dilation II, Version 2.1 as on 14 May 2023.

Relativistic effects on phaseshift in frequencies invalidate time dilation II 

http://dx.doi.org/10.13140/RG.2.2.12631.96161

#phaseshift #relativisticeffects #wavelengthdilation #eventtime

Energy Fields: - Electric, Magnetic, Electro-magnetic, Gravitational.

Field, in physics, is an area in which a physical quantity is associated with each point. The quantity can be a number, as in the case of a scalar field, such as the Higgs field, or it can be a vector, as in the case of a gravitational field, associated with a force.

The three main force fields are electric, magnetic and gravitational. Often, electric and magnetic fields work together because they are continuously generated by each other's processes. Moving electricity creates magnetic fields and moving magnets create electric charges and fields.

Electromagnetic field, a physical field produced by electrically charged objects. Electric field, a vector field around an electric charge that exerts a force on other charges. Magnetic field, a vector field that describes electric currents and the magnetic effect of magnetic materials.

Electric field.

An electric field is the physical field that surrounds an electrically charged particle and exerts a force on all other charged particles in the field, either attracting or repelling them. It also refers to the physical field for a system of charged particles

Magnetic field.

A magnetic field is a vector field that describes moving electric charges, electric currents, and magnetic effects on magnetic materials. A moving charge in a magnetic field experiences its own velocity and a force perpendicular to the magnetic field.

Gravitational field.

In physics, a gravitational field is a model used to explain the effect that a massive body exerts on the space around it, exerting a force on another massive body. Thus, a gravitational field is used to explain gravitational phenomena and is measured in newtons per kilogram.

Electromagnetic field.

Energy waves are called electromagnetic (EM) because they have oscillating electric and magnetic fields. Electromagnetic fields are a combination of invisible electric and magnetic fields of energy. Electromagnetic (EM) fields are classified by their frequency or wavelength. The electromagnetic field can be defined as light because it propagates at the speed of light. Maxwell's laws and Lorentz force laws describe the way current and charge interact with electromagnetic fields. They are generated by natural phenomena such as the Earth's magnetic field, but also by human activity, mainly through the use of electricity. 

#energyfield