Monday, 30 September 2019

Earth Tectonic Plates and Earthquake Prediction Hypothesis


Earth Tectonic Plates and Earthquake Prediction Hypothesis

I know the title is strong for a theoretical physicist because I am not geologist. However the idea I will highlight here may trigger another useful techniques to help all humanity.

Well, What we know and How do geologists measures?

We know the areas of earth tectonic plates. This is one good thing on the hand. 

Second of all, geologists measure movements of continents or crust movement by gps if the area is on the surface or sound waves if it is under the ocean or sea. 

Third, also we know the sediment types of the area which is useful to understand the chemical composition.

The very hard problem is if two tectonic plates do not move (locked) because of it is so dry than it is very hard to measure the movement. However I hope laser measuring instrument may help for very small movements if it is smaller than 1cm. It is very critical to measure those locked plates because we can not predict if we can not measure the movement. If we don't have any data than earthquake will be expected event in unexpected date.




The Prediction Hypothesis

I believe we have enough realtime data but we don't know how to use and/or we don't have realtime data so we can not predict exactly.

Prediction can not give definite date however we can understand how close the date is.

1. Calculate the mass of diffent tectonic plates. Also volume will give us density of the tectonic plates.
2. Measure monthly movement of the tectonic plates.
3. Measure the heat exchanges of the surface. (geologist measure gas emissions out of the surface).
4. Sediment and/or rock types which will give chemical compositions of different tectonic plates.

Now, if we can measure and calculate all of those above than we can calculate the pressure on each other tectonics plates.

If we can calculate the pressure tectonic plates on each other than we can calculate the endurance time of each compositions depending on the pressure and heat.




The similar technique to calculate the endurance of metals or rocks under piston pressure unit.

The complicate part is to add vectorial pressure and to obtain realtime data from the tectonic plates to calculate the correct pressure, mass, volume, heat, movement.

I don't think it is easy job however I believe geologists can measure the most accurate date by following earthquake prediction hypothesis.

Tectotic rock movements emit electric and electromagnetic waves as well as heat and sound as a result of friction. Therefore, placing EMF sensors that measure electromagnetic field changes with interconnected MEMS-based electrical field measurement sensors in areas such as meteorology sensors, we can be notified a few hours before the earthquake occurs actively and even a few days before with more precise measurements.

Hypothesis #2






On the other hand; once the threshold passed over 180000..200000 Gigajoules energy of tectonic plates' pressure than it should draw the pattern of the energy pattern of the crust into air as a result of quantum entanglement. If there is distinguishable (visable) molecules in the air than we must see the pattern of energy variance (diffusion) by our eyes on the vapor, water (rain), dust etc.

On the other hand, physicists believe neutrinos are the particle does not interact or interact very low level with other particles and materials. However we don't have direct evidence that neutrinos do not interact however they believe between 100 billion to 100 trillion neutrinos pass inside of earth every second.
https://icecube.wisc.edu/news/view/546
https://ase.tufts.edu/cosmos/view_chapter.asp?id=37

First of all we should understand that the difference between 100 bilion and 100 trillion is huge. But a definite fact never indicate a huge gap. Because labs prove theories in sigma 6 otherwise it still sits as a hypothesis. This means we still don't know neutrinos enough and we can not measure it as expected. Once we understand the nature of neutrinos than we can measure and use the particle. I assume we can use neutrinoes to take "a kind of" XRay of structure of earth. If we can do that one day than neutrino will be another option to monitor the movements & pressure on tectonic plates and many more. So We can understand what causes the movement and when a earthquake will happen definite in time and place.

What does the information I give about the earthquake do in practice? 
Let me tell. About 24 years I realize that earthquakes trigger eachother. This has never happened in north&south direction but west&east direction if it is more than 5 richter magnitude. 
When there is a trigger level of energy discharge, the area that energy can reach in the east-west direction is calculated. Plates with energy accumulation are marked in the areas that enter the area. And the public is warned. Color can be given according to the density of energy accumulation in the plate. I'm talking about a day or two days. This type of application can be done as a possible tsunami warning. Of course, building control is a fact that its modernization is in the first priority.

  


Thank you for reading.


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