June 30, 1908
On today’s date 113 years ago, the largest asteroid impact in recorded history struck on a warm summer morning in Siberia, Russia. We observe Asteroid Day each year on June 30, on the anniversary of what’s now known as the Tunguska explosion.
The explosion happened over the sparsely populated northern forestland above the Podkamennaya Tunguska River in what is present-day Krasnoyarsk Krai.
The blast released enough energy to kill reindeer and flatten an estimated 80 million trees, over an area of 830 square miles (2,150 square km). Witnesses reported seeing a fireball – a bluish light, nearly as bright as the sun – moving across the sky. A flash and a sound similar to artillery fire was said to follow it. A powerful shockwave broke windows hundreds of miles away and knocked people off their feet.
Yet decades passed before anyone could explain the event.
Tunguska explosion largest in recorded history
A mysterious aspect of the Tunguska event was that no crater was ever found. But, even without a crater, scientists still categorized it as an impact event. They now believe the incoming object never struck Earth, but instead exploded in the atmosphere, causing what’s known as an air burst. This type of atmospheric explosion was still enough to cause massive damage to the forest in the region.
Scientists determined the object was most likely a stony asteroid approximately the size of a twenty-five-story building. The asteroid was traveling at a speed of about 33,500 miles (54,000 km) per hour and exploded three to six miles (five to ten km) above Earth’s surface.
Why did it take so long – the better part of the 20th century – for scientists to understand what caused the Tunguska event? For one thing, it was almost a decade before the first scientists reached this remote region of Siberia. In 1927, Leonid Kulik led the first Soviet research expedition to investigate the Tunguska event. He made an initial trip to the region, interviewing local witnesses and exploring the region where the trees had been felled.
But Kulik did not find any meteorite fragments or an impact crater.
As a result of Kulik’s initial investigation, some concocted wild theories to explain the Tunguska event. People claimed it was caused by an encounter with a stricken alien spacecraft. Later, they pointed to a mini-black-hole, or a particle of antimatter.
The truth is just as interesting, and perhaps more terrifying … because it can happen again.
The Chelyabinsk meteor impact
In fact, the Tunguska event basically did happen again, just on a smaller scale. Enter the Chelyabinsk meteor, 1,500 miles (2,400 km) to the west, 105 years later.
On February 15, 2013, a similar although smaller airburst occurred over the city of Chelyabinsk, Russia.
The Chelyabinsk event provided vital clues as to what happened during the Tunguska event. As NASA explained, new evidence arrived to help solve the mystery of Tunguska:
This highly documented fireball created an opportunity for researchers to apply modern computer modeling techniques to explain what was seen, heard and felt.
The models were used with video observations of the fireball and maps of the damage on the ground to reconstruct the original size, motion and speed of the Chelyabinsk object. The resulting interpretation is that Chelyabinsk was most likely a stony asteroid the size of a five-story building that broke apart 15 miles above the ground. This generated a shock wave equivalent to a 550-kiloton explosion. The explosion’s shockwave blew out roughly a million windows and injured more than a thousand people. Fortunately, the force of the explosion was not enough to knock down trees or structures.
Per current understanding of the asteroid population, an object like the Chelyabinsk meteor can impact the Earth every 10 to 100 years on average.
Studying Tunguska to prepare for future events
In 2019, scientists published new research about the Tunguska event in a series of papers in a special issue of the journal Icarus. A workshop held at NASA’s Ames Research Center in Silicon Valley and sponsored by the NASA Planetary Defense Coordination Office inspired the research.
The theme of the workshop was reexamining the astronomical cold case of the 1908 Tunguska impact event.
Read more about NASA’s research on the Tunguska explosion
In recent decades – due to the Tunguska event, and other, smaller impact – astronomers have come to take the possibility of catastrophic comet and asteroid impacts seriously. They now have observing programs to watch for Near-Earth Objects, as they’re called. At regular meetings they discuss what might happen if we do find a large object on a collision course with Earth. Two separate missions will travel to the asteroid Didymos. ESA’s Hera mission is due to launch in 2024. NASA’s DART mission will launch sometime at the end of this year.
Lorien Wheeler, a researcher at NASA Ames Research Center, working on NASA’s Asteroid Threat Assessment Project, said:
Because there are so few observed cases, a lot of uncertainty remains about how large asteroids break up in the atmosphere and how much damage they could cause on the ground. However, recent advancements in computational models, along with analyses of the Chelyabinsk and other meteor events, are helping to improve our understanding of these factors so that we can better evaluate potential asteroid threats in the future.
Astronomer David Morrison, also at NASA Ames Research Center, commented:
Tunguska is the largest cosmic impact witnessed by modern humans. It also is characteristic of the sort of impact we are likely to have to protect against in the future.
Bottom line: The Tunguska explosion on June 30, 1908, was the largest asteroid impact in recorded history. It flattened 830 square miles (2100 sq km) of Siberian forest. Researchers are preparing for future Tunguska-sized events.
Source: Icarus special papers on Tunguska
The post Today in science: The Tunguska explosion first appeared on EarthSky.
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June 30, 1908
On today’s date 113 years ago, the largest asteroid impact in recorded history struck on a warm summer morning in Siberia, Russia. We observe Asteroid Day each year on June 30, on the anniversary of what’s now known as the Tunguska explosion.
The explosion happened over the sparsely populated northern forestland above the Podkamennaya Tunguska River in what is present-day Krasnoyarsk Krai.
The blast released enough energy to kill reindeer and flatten an estimated 80 million trees, over an area of 830 square miles (2,150 square km). Witnesses reported seeing a fireball – a bluish light, nearly as bright as the sun – moving across the sky. A flash and a sound similar to artillery fire was said to follow it. A powerful shockwave broke windows hundreds of miles away and knocked people off their feet.
Yet decades passed before anyone could explain the event.
Tunguska explosion largest in recorded history
A mysterious aspect of the Tunguska event was that no crater was ever found. But, even without a crater, scientists still categorized it as an impact event. They now believe the incoming object never struck Earth, but instead exploded in the atmosphere, causing what’s known as an air burst. This type of atmospheric explosion was still enough to cause massive damage to the forest in the region.
Scientists determined the object was most likely a stony asteroid approximately the size of a twenty-five-story building. The asteroid was traveling at a speed of about 33,500 miles (54,000 km) per hour and exploded three to six miles (five to ten km) above Earth’s surface.
Why did it take so long – the better part of the 20th century – for scientists to understand what caused the Tunguska event? For one thing, it was almost a decade before the first scientists reached this remote region of Siberia. In 1927, Leonid Kulik led the first Soviet research expedition to investigate the Tunguska event. He made an initial trip to the region, interviewing local witnesses and exploring the region where the trees had been felled.
But Kulik did not find any meteorite fragments or an impact crater.
As a result of Kulik’s initial investigation, some concocted wild theories to explain the Tunguska event. People claimed it was caused by an encounter with a stricken alien spacecraft. Later, they pointed to a mini-black-hole, or a particle of antimatter.
The truth is just as interesting, and perhaps more terrifying … because it can happen again.
The Chelyabinsk meteor impact
In fact, the Tunguska event basically did happen again, just on a smaller scale. Enter the Chelyabinsk meteor, 1,500 miles (2,400 km) to the west, 105 years later.
On February 15, 2013, a similar although smaller airburst occurred over the city of Chelyabinsk, Russia.
The Chelyabinsk event provided vital clues as to what happened during the Tunguska event. As NASA explained, new evidence arrived to help solve the mystery of Tunguska:
This highly documented fireball created an opportunity for researchers to apply modern computer modeling techniques to explain what was seen, heard and felt.
The models were used with video observations of the fireball and maps of the damage on the ground to reconstruct the original size, motion and speed of the Chelyabinsk object. The resulting interpretation is that Chelyabinsk was most likely a stony asteroid the size of a five-story building that broke apart 15 miles above the ground. This generated a shock wave equivalent to a 550-kiloton explosion. The explosion’s shockwave blew out roughly a million windows and injured more than a thousand people. Fortunately, the force of the explosion was not enough to knock down trees or structures.
Per current understanding of the asteroid population, an object like the Chelyabinsk meteor can impact the Earth every 10 to 100 years on average.
Studying Tunguska to prepare for future events
In 2019, scientists published new research about the Tunguska event in a series of papers in a special issue of the journal Icarus. A workshop held at NASA’s Ames Research Center in Silicon Valley and sponsored by the NASA Planetary Defense Coordination Office inspired the research.
The theme of the workshop was reexamining the astronomical cold case of the 1908 Tunguska impact event.
Read more about NASA’s research on the Tunguska explosion
In recent decades – due to the Tunguska event, and other, smaller impact – astronomers have come to take the possibility of catastrophic comet and asteroid impacts seriously. They now have observing programs to watch for Near-Earth Objects, as they’re called. At regular meetings they discuss what might happen if we do find a large object on a collision course with Earth. Two separate missions will travel to the asteroid Didymos. ESA’s Hera mission is due to launch in 2024. NASA’s DART mission will launch sometime at the end of this year.
Lorien Wheeler, a researcher at NASA Ames Research Center, working on NASA’s Asteroid Threat Assessment Project, said:
Because there are so few observed cases, a lot of uncertainty remains about how large asteroids break up in the atmosphere and how much damage they could cause on the ground. However, recent advancements in computational models, along with analyses of the Chelyabinsk and other meteor events, are helping to improve our understanding of these factors so that we can better evaluate potential asteroid threats in the future.
Astronomer David Morrison, also at NASA Ames Research Center, commented:
Tunguska is the largest cosmic impact witnessed by modern humans. It also is characteristic of the sort of impact we are likely to have to protect against in the future.
Bottom line: The Tunguska explosion on June 30, 1908, was the largest asteroid impact in recorded history. It flattened 830 square miles (2100 sq km) of Siberian forest. Researchers are preparing for future Tunguska-sized events.
Source: Icarus special papers on Tunguska
The post Today in science: The Tunguska explosion first appeared on EarthSky.
from EarthSky https://ift.tt/3w7gtWn
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