Method for Hyper Speed in Moving Body by Temperature Cooling, According to the Theory of New Axioms and Laws
Abstract
Valentina Markova
In the present article, a method and technology for obtaining Hyper Speeds for a moving body in a fluid medium is proposed. This is done by using the Theory of new Axioms and Laws that contains 2 new Axioms and 8 new Laws (briefly called the new Theory). In the present development the author applies only 1 Axiom and 4 Laws are applied.
The new Theory is based on two types of motion - motion of an open longitudinal vortex and an open transverse vortex. Each of them can be accelerating (with positive acceleration) or decelerating (with negative acceleration). Thus, the new Theory is based on 4 (rather than 1) non-uniform motions with variable velocity and acceleration.
On this extended basis the new Theory explains the resistance and heating of surface with the appearance of open decelerating transverse vortices. The decelerating motion is described by Law 5. It describes how the decelerating motion generates decelerating transverse vortices that are hot waves.
The essence of the new method is to suck from out the decelerating hot vortices that are formed due to friction of the moving body in a fluid environment. The suction is done by applying Law 6. It describes how the accelerating movement sucks in transverse vortices.
The role of a decelerating transverse vortices are played role by the hot waves of hot vortices (due to the friction) emitted by the surface of body toward the environment. The role of open accelerating vortex is played by a frozen fluid that sucks and absorbs the warm from environment according Thermodynamic Theory.
Therefore the Theory of new Axioms and Laws intersects with the Theory of Classical Thermodynamics is Law 6. That is why the application of Law 6 is modified according to the conditions. Accelerated sucking in is replaced by a layer of the surface of the body with a very sharply reduced temperature. This part of body can be performed by a longitudinal layer of body filled by special material (gel), pre- cooled and poured in the volume of layer. Thus, suction due to accelerated movement is replaced by suction due to a difference in temperature by a special material.