Simon Bridge said:Lots of things you don't normally think of as explosive can explode - water for example can explode into steam when heated sufficiently fast. If it is a sealed container at the time, the explosion can be quite dramatic.
So - pretty much, the meteor may have contained some volatile substances which were critically heated or exposed during flight. It may just be the kinetic energy getting dumped in the atmosphere as it broke apart.
http://www.universetoday.com/100025/airburst-explained-nasa-addresses-the-russian-meteor-explosion/
Look up "asteroid airburst" - they are quite common.
Specifically? We don't know. It may be that someone had a spectrometer pointed in the right direction at the time - still waiting for data. But, generally:Zorwell said:Why did the meteor explode? What specifically caused the fireball (the abrupt increase in brightness) for example?
A fireball comes with a much more rapid energy release - though a bright light does not have to come from a high temperature or, even, burning.That is, what is the physics behind such a fireball versus one that just ablates and burns down to nothing?
Many materials that are not usually considered explosive may still explode. Meteors may contain substances that are explosive.Meteors are made up of materials we do not normally consider explosive,
Kinetic energy - probably. The meteor may also contain volatile materials that get released as it burns up.so what produces the energy we see in such a fireball?
The air around the meteor heats up as the meteor slows down. If it slows suddenly (say - it breaks apart, increasing surface area and thus drag) then you get a sudden energy dump which has to go somewhere.What's the mechanism?
Some bits may have become incandescent, so would the air.Did the material of the meteor vaporize and the constituents burn?
... of something. I was being cautious including several possible mechanisms.I suspect the explosion came from an abrupt phase change - liquid to gas.
Ineed - small fast objects can also be devastating. The article I gave you in post #2 expands on this theme (a bit) and has some good leads for further reading.There have been many discussions about the effect of a large meteor striking the earth, but we have seen, in this example, that the primary effects of some meteors isn't at all in their impact with the surface but the explosive size of the shock wave they produce in the atmosphere and possibly, with a larger meteor exploding closer to the ground, the heat that they produce.
The Chelyabinsk meteor exploded due to a phenomenon called airburst, where the meteor's high speed caused it to heat up and compress the air in front of it. This created a shockwave that caused the meteor to disintegrate and explode.
No, the Chelyabinsk meteor was not a nuclear explosion. It was a natural event caused by a meteor entering Earth's atmosphere and exploding due to airburst.
Yes, if the Chelyabinsk meteor had not exploded, it could have caused more damage. The explosion released energy equivalent to about 30 times the atomic bomb dropped on Hiroshima, but because it occurred high in the atmosphere, it did not cause significant damage on the ground.
The Chelyabinsk meteor was estimated to be about 20 meters in diameter and weighed around 10,000 tons. It was the largest known object to enter Earth's atmosphere since the Tunguska event in 1908.
No, the Chelyabinsk meteor is not related to the asteroid that caused the extinction of the dinosaurs. It came from a different asteroid or comet and was much smaller in size and impact compared to the one that caused the dinosaur extinction event.