Thermodynamics and Energy

1312 Submissions

[6] viXra:1312.0225 [pdf] replaced on 2014-01-16 10:57:55

Repulsive Gravitational Force Field

Authors: Fran De Aquino
Comments: 6 Pages.

A method is proposed in this paper to generate a repulsive gravitational force field, which can strongly repel material particles, while creating a gravitational shielding that can nullify the momentum of incident particles (including photons). By nullifying the momentum of the particles and photons, including in the infrared range, this force field can work as a perfect thermal insulation. This means that, a spacecraft with this force field around it, cannot be affected by any external temperature and, in this way, it can even penetrate (and to exit) the Sun without be damaged or to cause the death of the crew. The repulsive force field can also work as a friction reducer with the atmosphere (between an aeronave and the atmosphere), which allows traveling with very high velocities through the atmosphere without overheating the aeronave. The generation of this force field is based on the reversion and intensification of gravity by electromagnetic means.
Category: Thermodynamics and Energy

[5] viXra:1312.0217 [pdf] submitted on 2013-12-27 10:55:33

Energodynamics. Part 5. Fundamental Unity of Heat and Non-Heat Forms-of-Energy Conversion Processes.

Authors: Etkin V.A.
Comments: 78 Pages.

In this part of book a single theory of energy conversion process rate and productivity is suggested, which relate to the classic theory of thermal engines in the same manner as dynamics to statics.
Category: Thermodynamics and Energy

[4] viXra:1312.0157 [pdf] replaced on 2013-12-25 13:39:01

Energodynamics. Part 4. Thermodynamic Analisys of Phenomena at Scientific Disciplines Interfaces

Authors: Etkin V.A.
Comments: 63 Pages.

It is shown that multiple thermomechanical, thermodiffusional, thermoelectrical, thermo-magnetic, electromechanical, thermogalvanomagnetic, etc effects are caused not by synergism (mutual intensification) of irreversible processes as commonly accepted, but, on the contrary, by their counterdirectivity and the associated partial reversibility.
Category: Thermodynamics and Energy

[3] viXra:1312.0150 [pdf] submitted on 2013-12-20 03:53:31

Energodynamics. Part 3.elimination of Negative Consequencies of Thermodynamics Extrapolation.

Authors: Etkin V.A.
Comments: 81 Pages.

The objective of this Section is to consider from more general positions of energodynamics a number of consequences obtained beyond the applicability of the classic thermodynamics and resulted in a number of paralogisms appeared in it, viz. fallacious statements, though, seemingly, quite credible.
Category: Thermodynamics and Energy

[2] viXra:1312.0077 [pdf] submitted on 2013-12-11 06:59:27

Energodynamics.part 2. Main Principles, Laws and Equations

Authors: Etkin V.A.
Comments: 122 Pages.

It is shown, that distribution of a thermodynamic method of research on other fundamental disciplines «building a bridge» between classical and quantum mechanics; classical and nonequilibrium thermodynamics, heat- and mass transfer theories, hydrodynamics and electrodynamics, allowed to argue the fundamental principles of these disciplines, to prove their main laws and to deduce their basic equations as mathematical and logic consequences of energodinamics, not resorting thus to any hypotheses, postulates or modelling representations about the molecular mechanism of investigated processes.
Category: Thermodynamics and Energy

[1] viXra:1312.0002 [pdf] submitted on 2013-12-01 03:57:21

Redefining 'system' and 'entropy' in Physical Terms

Authors: Jose P Koshy
Comments: 4 Pages. The second paper based on Reality

In this paper, I propose that any independent physical system is closed and isolated, and that the system as well as its subsystems has entropy. An increase in entropy of the system causes a decrease in entropy of its subsystems. So ‘normal entropy’ is the preferred state of a static system. A dynamic system, however, oscillates between high and low entropy states. The proposed concept limits ‘the role of second law of thermodynamics’, and predicts ‘a pulsating model’ for the universe, and ‘a reversible low-entropy state’ for black holes.
Category: Thermodynamics and Energy