A broken window in the South Ural State University, Chelyabinsk, which was damaged by a shockwave from the meteorite. (Reuters)
Chelyabinsk (Russia), Feb. 18: The shockwave from a meteorite that exploded above Siberia last week somehow sheared the roof off a brick and steel factory building while leaving a nearby glass facade unscathed.
In some highrises in this city, the first modern urban community to have felt the breath of a cosmic close encounter, every window blew out on the top floor; elsewhere, the ground floors suffered.
More ominously, reports came in to local news media over the weekend of stranger phenomena: behind unshattered apartment windows, glass jugs were said to explode into shards, dishes to crack, electronics to die. Balconies rattled. One man said a bottle broke right in his hand.
Anna V. Popova was at home with her daughter when she saw the flash, then heard explosions, then found the windows of her enclosed balcony blown in; her neighbour, with identical windows, escaped without property damage.
“A lot of people suffered, not us alone,” Popova said, but added that there seemed to be randomness in whose property was damaged. “Who are we supposed to blame for all this? Nobody of course.”
Scientists believe the space rock that tore through the atmosphere on Friday morning and blew apart here was the largest to have entered the atmosphere since 1908 and that it was unusual as well for the scale of its effects: more than 1,200 people injured and broad property damage.
Indeed, the event is providing a first indication of the type of structural and infrastructural costs meteors can exact from a highly industrialised society. Nasa scientists say a meteorite of this size strikes the Earth about once every hundred years.
Shattered glass caused most of the damage and injuries here in Chelyabinsk, a sprawling industrial city of about a million people.
What shattered the glass, scientists say, was both the explosion as the meteorite fragmented and the waves of pressure created as it decelerated. Such low-frequency waves — called infrasound — are sometimes detected by cold-war era nuclear blast sensors in remote parts of the Pacific Ocean or Alaska, according to meteorite experts.
The waves can bounce off buildings and be stronger in some places than others; they can also resonate with glass, explaining why bottles and dishes might have shattered inside undamaged kitchens, as if crushed by the airy hand of the meteorite itself.
“A shock wave is like a ball,” Aleksandr Y. Dudorov, director of the theoretical physics department at Chelyabinsk State University, said in an interview. “Throw a ball into a room and it will bounce from one wall to another.”
Russia has mobilised 24,000 emergency officials to inspect roads, railroads, hospitals, factories and military facilities. Most are undamaged. Also yesterday, Russia’s consumer safety inspection agency, Rospotrebnadzor, released a statement saying the water in Lake Chebarkul, where a hole in the ice appeared on Friday, was not radioactive.
It was unclear why the agency released this finding only yesterday, or whether the tests were conducted to assuage popular concerns or out of any real official uncertainty over what happened on Friday. In any case, the agency said a mobile laboratory quietly dispatched to the lake tested for but did not discover cesium 137 and strontium 90, isotopes created in nuclear explosions.
Infrasound waves have not previously been studied in a cityscape, Richard P. Binzel, a professor of planetary science at the Massachusetts Institute of Technology and an author of a textbook on asteroids and meteorites, said in a telephone interview. But he noted that the apparent randomness of the damage was consistent with the way such waves function.
“A shock wave can be coming from a particular direction, and if you face that direction you are more susceptible,” Binzel said. “One building might shadow another, or you may have a street that is optimally aligned to channel the wave, either in a fortunate or unfortunate way.”
Peter Brown, a professor of physics at the University of Western Ontario, said that an infrasound wave “is very efficient at travelling long distances,” and that “windows, structures or even glass jars susceptible to resonate at this frequency could be a factor to seemingly random damage at widely disparate locations.”