P E RM A N E N T  D E F O R M A T I O N  I N   S P A C E T I M E

as a similar formations of vechicles using prmanent disformations

 structures in solid formats

By Henryk Szubinski..

 

 

 

 

 resultant reapplications of vechicles to be used in space time by the applications of combining

polymer flow as it is melted in a experiment of minimal expenditure for the usage of a lighter and some  polymer in a cascett /cylinder and a motion capture device camera..———–>valuable data

applications…

 

 

 

     AIR FORMATS———————-FLUID FORMATS——————-SPACE FORTMATS

dynamical states of polymers / H2O as the calculators of dynamics in space time by referenced relations  of only polymers and only space time by a general increase of teperature …..

 

there are states of dynamics everywhere

the point im trying to make that in a air state of large values of oxygen in a fluid dynamics system that

would indicate only oxygen..a water format is basic to the dynamics processess that occur in air..

The problem posed here is the resultant possibility of calculating the dynamics of space time. The only data on it is in thermal data of dynamical processess such as solar activity..magnetioc winds etc…but how does the system behave..

The question can be answered by a space time solid basis of involvance as a large scale model scaled down to a elastic point of view..Everywhere large flares occur ..suns dissapear and reappear ..The galaxies fight with their own elasticity..

So inbetween

1)the earth based dynamics of oxygen

2) the elastic dynamics of polymer melting and their strings of polymers resultant melting

3)and the thermal dynamics processess in space time by usage of polymer melting the substancialisation of a similar environment that exists on earth in the format of water can also be found in space time..

 

 

the applications are large experiments of melting polymers in space time around the formats for vechiclular dynamics streamlining by using blast volumes with the vechicle to be designed with functional

as a) trowing plastic

b) the stream lined object for research

c) the plastic polymer space tunnel…(wind tunnel similarity)

 

a wind tunnel has already a format of the elastic limits of tensility as basic similarity to it process.

using volume formating for polymers and the applications of temperature

= to volume plast (melt effect root )[ space time]

as fibral minimalisations of a melf fase that could be cast onto a vechicle dynamics format and measured as a space time relativity…….

 

Elastomers are usually thermosets (requiring vulcanization) but may also be thermoplastic (see thermoplastic elastomer). The long polymer chains cross-link during curing, i.e., vulcanizing. The molecular structure of elastomers can be imagined as a ’spaghetti and meatball’ structure, with the meatballs signifying cross-links. The elasticity is derived from the ability of the long chains to reconfigure themselves to distribute an applied stress. The covalent cross-linkages ensure that the elastomer will return to its original configuration when the stress is removed. As a result of this extreme flexibility, elastomers can reversibly extend from 5-700%, depending on the specific material. Without the cross-linkages or with short, uneasily reconfigured chains, the applied stress would result in a permanent deformation.

Temperature effects are also present in the demonstrated elasticity of a polymer. Elastomers that have cooled to a glassy or crystalline phase will have less mobile chains, and consequentially less elasticity, than those manipulated at temperatures higher than the glass transition temperature of the polymer.

It is also possible for a polymer to exhibit elasticity that is not due to covalent cross-links, but instead for thermodynamic reasons.