Question 1: What is the final temperature of the world?

 

The Best Surprise

 

Paper 4 : Collision Theory and DTaCT

 In APG, any transfer or conversion of data is called a collision. In a way, the basis of action is the reactions of the material universe. Collision is a material act and correlated with matter. Data is also a material act and related to matter. Due to the collision, the data is transferred and transformed, also the collision occurs due to the transfer and conversion of data. Data transfer and conversion rules determine the type of collision, and with any kind of collision, the transfer, or conversion occurs in the data (based on the same transfer and conversion rules). In a dynamic system, a collision occurs continuously, and data is transferred and conversion, but in a locked system there is no collision, no data transfer, no data conversion. (M.A.Sh)

 

 You can see in ResearchGate Link

Paper 3 : Data Transfer and Conversion Theory

DTaC Theory : DTaCT 

Data is produced (for some reason). After production, it is either transferred or converted, or sometimes converted during transfer. This data exchange (whether transfer, conversion, or both) is the basis for the action of the universe's reactions. What governs this transfer and conversion are the rules. Transfer and conversion rules. The universe consists of three components: matter, data, and rule. Data is produced from matter and behaves according to (transfer and conversion) the rules. The cycle of matter, data, and rule can always continue, or as long as the system locks. As far as we see in nature, no locking has been observed yet. (M.A.Sh)

You can see in ResearchGate Link

Conception of Field

 

Is pressure the same as energy density?

APG Institute

 

Pure physics in APG

In APG Institute we study pure physics

We dare to express our opinions and suggestions about physics and this is a great honor for our team.

 

APG Institute

https://www.researchgate.net/publication/343047305_Pure_physics_in_APG 

What is space?

Paper 2 : Coupling physics and extremely special relativity _M.A.Sh

Consider a phenomenon that's not coupled with the system. To examine the motion of a phenomenon relative to the outside observer of the system (which is the observer living in the laboratory), we do not need to examine that phenomenon relative to the system.

But if the phenomenon is coupling with the system, then to examine the system by any other observer, we need to study the phenomenon relative to the system (it means, we need system information about the phenomenon).

For example, considering the light is not coupled with the train (you can ask why), If a light flash on the moving train turns on, The observer in the station can talk about this light without needing the train information (or internal observer's information).

But if a sound wave is generated on the same train, considering the sound wave is coupled with the train (you can still ask why), Then the observer in the station needs the internal observer's information about this sound wave to examine that.

We (in the APG) call this concept coupling physics.

To examine any phenomenon relative to any observer (or system), we must consider that the phenomenon is coupling with the system or not (relative to the observer or the system under study), and this is what we call (in the APG) very special relativity. (M.A.Sh)

You can view the text of the article on LinkedIn.