The cause of earthquakes is the explosion of magmatic gases.
Community of Russian Scientists. https://vk.com/rosuch
There is a strict pattern, earthquakes most often occur in the foothills.
There are practically no earthquakes on the plains and high in the mountains.
Perhaps in the foothills under the earth's crust there are pits in which gases collect and then explode.
The tidal force stretches and compresses the Earth twice a day, due to which the pressure under the earth's crust decreases and increases. As a result, air penetrates under the earth's crust.
And as soon as the ratio of magmatic gases and air approaches 1-10, an explosion occurs, and waves from the earthquake source scatter in different directions.
After the explosion, a void and cracks are formed in the source of the earthquake, into which gases rush, as a result, a repeated explosion occurs.
The hypothesis presented can be easily tested if a firecracker is blown up under the ice.
https://youtu.be/zFdF6-qaPSA https://youtu.be/UDLobrro2Ao https://youtu.be/U7pNie2403A
During earthquakes, the epicentral area sinks and becomes denser, due to which the air flow through the micro-crevices decreases, and the earthquake focus subsides.
The intensity of earthquakes can be expressed by the following formula: A = m / h.
Where, m is the mass of the combustible mixture.
h is the depth of the combustible mixture.
Also, the intensity of earthquakes depends on the ability of the earth's crust to pass water and air. I believe it is higher in the foothills. https://en.m.wikipedia.org/wiki/Earthquake
1. It is possible that magmatic gases, rising, penetrate deep caves, voids and cracks in which there is air.
2. The autoignition temperature of gases is about 500 ° C.
3. The duration of earthquakes and the number of underground explosions depends on the amount of combustible mixture in the epicentral area.
4. In cracks, not all of the combustible mixture explodes, but only that part that has reached the required proportion.
5. After explosions, a rarefaction arises in the hearth, into which the mantle rushes, as a result of which the last shock occurs.
The problem with studying earthquakes is that earthquakes are not cyclical like ebbs and flows.
At the same time, earthquakes, volcanoes and geysers have a pattern, they most often occur in the foothills, but on the plains they are practically absent.
On the plains, there are no earthquakes on the fracture line of the plates. (both on land and at sea). https://images.app.goo.gl/NC9u68Tyw7Gm4M5cA
Due to the rotation of the Earth, centrifugal force acts on the earth's crust, but due to the orbital motion of the Earth, the centrifugal force oscillates, for this reason, tension and movement of the earth's crust occurs. These forces, during the formation of planets, can create mountain systems, but not volcanoes and earthquakes.
The video shows how, during an earthquake, the earth's crust floats on a manty. https://youtu.be/hMhcp3BS1-w
Continuation: Forum of Akademgorodok Novosibirsk. The science. https://forum.academ.club/index.php?showtopic=1235578
Community of Russian Scientists. https://vk.com/rosuch
There is a strict pattern, earthquakes most often occur in the foothills.
There are practically no earthquakes on the plains and high in the mountains.
Perhaps in the foothills under the earth's crust there are pits in which gases collect and then explode.
The tidal force stretches and compresses the Earth twice a day, due to which the pressure under the earth's crust decreases and increases. As a result, air penetrates under the earth's crust.
And as soon as the ratio of magmatic gases and air approaches 1-10, an explosion occurs, and waves from the earthquake source scatter in different directions.
After the explosion, a void and cracks are formed in the source of the earthquake, into which gases rush, as a result, a repeated explosion occurs.
The hypothesis presented can be easily tested if a firecracker is blown up under the ice.
https://youtu.be/zFdF6-qaPSA https://youtu.be/UDLobrro2Ao https://youtu.be/U7pNie2403A
During earthquakes, the epicentral area sinks and becomes denser, due to which the air flow through the micro-crevices decreases, and the earthquake focus subsides.
The intensity of earthquakes can be expressed by the following formula: A = m / h.
Where, m is the mass of the combustible mixture.
h is the depth of the combustible mixture.
Also, the intensity of earthquakes depends on the ability of the earth's crust to pass water and air. I believe it is higher in the foothills. https://en.m.wikipedia.org/wiki/Earthquake
1. It is possible that magmatic gases, rising, penetrate deep caves, voids and cracks in which there is air.
2. The autoignition temperature of gases is about 500 ° C.
3. The duration of earthquakes and the number of underground explosions depends on the amount of combustible mixture in the epicentral area.
4. In cracks, not all of the combustible mixture explodes, but only that part that has reached the required proportion.
5. After explosions, a rarefaction arises in the hearth, into which the mantle rushes, as a result of which the last shock occurs.
The problem with studying earthquakes is that earthquakes are not cyclical like ebbs and flows.
At the same time, earthquakes, volcanoes and geysers have a pattern, they most often occur in the foothills, but on the plains they are practically absent.
On the plains, there are no earthquakes on the fracture line of the plates. (both on land and at sea). https://images.app.goo.gl/NC9u68Tyw7Gm4M5cA
Due to the rotation of the Earth, centrifugal force acts on the earth's crust, but due to the orbital motion of the Earth, the centrifugal force oscillates, for this reason, tension and movement of the earth's crust occurs. These forces, during the formation of planets, can create mountain systems, but not volcanoes and earthquakes.
The video shows how, during an earthquake, the earth's crust floats on a manty. https://youtu.be/hMhcp3BS1-w
Continuation: Forum of Akademgorodok Novosibirsk. The science. https://forum.academ.club/index.php?showtopic=1235578