Why is the meteorite that destroyed dinosaurs so deadly?

Why is the meteorite that destroyed dinosaurs so deadly?

In this regard, the devastating situation about the meteorite that hit the earth 66 million years ago is clearly visible.

A new study shows that space rocks that have eliminated 75% of the planet ’s species, including dinosaurs, were not a more dangerous place to cause serious damage to the planet. Angel is also the deadliest.

Computer simulation and research on the crater site showed that the colliding rock hit the ground at a 60-degree angle, causing huge environmental damage.

Why is the meteorite that destroyed dinosaurs so deadly

We know that rocks that hit rocks in the Gulf of Mexico contain large amounts of sulfur or sulfur produced by mineral gypsum.

When this substance soars into the air and mixes with water vapor, a “global winter” is formed.

The confrontational perspective ensures that this environmental crisis will intensify and last longer.

Professor Gareth Collins of Imperial College London explained: “Collision at an angle of 45 to 60 degrees is very effective for converting rocks into steam and blowing debris into the air. If the angle of the collision is smaller or larger than this angle, it will reach the atmosphere. The amount of material will not cause too much climate change.

In an interview with BBC News, he said:

“Obviously, the location of the incident and the angle of collision caused a fatal storm.”

Facing the difficulties caused by this, the plants and animals on the ground fell.

The work of Professor Collins and his colleagues has been published in the research journal Nature Communication.

Professor Collins is a member of an international research team that is studying the structure of craters formed by falling meteorites. Meteorites are the message of death.

Today, the 200-kilometer wide crater is located under Mexico ’s Yucatan Island,

while the safest central part is not far from the port of

It is also difficult to estimate how much force it must bear to create such a large pit.

It is believed that the diameter of this meteorite is 12 km, and a hole has been drilled at a depth of about 30 km in the uppermost layer of the earth.

When the rocks at the bottom of this bowl-shaped pit melted

they raised Mount Everest, the world’s highest mountain, in just a few minutes. But it did not stay, collapsed

and left the mountain in the form of a circle.

From Professor Collins ’point of view, it is interesting to see that there are disproportionate structures at the Chaksolob site.

For example, if you look at the middle of a pit and see the ring at the top of it and the raised rocks below the surface of the earth, then none of these things are completely above each other. They are actually located from northeast to southwest,

and the center of the crater is between the rings on the peak.

It is important to know from which direction this meteor came from and from which angle it hit the earth.

Imperial College researcher Dr. Collins conducted multiple simulations of the direct high-performance computing facility of the British Council for Science and Technology Facilities.

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