Difference between revisions of "March 27, 2014"
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− | <em>image by [https://www.youtube.com/watch?v=Y55NPvR0sIc HyperVision HPV-X Camera of Shimadzu Corporation]</em><br /> | + | <em>image by [https://www.youtube.com/watch?v=Y55NPvR0sIc" rel="nofollow HyperVision HPV-X Camera of Shimadzu Corporation]</em><br /> |
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− | A new camera with the capability of recording 10 million frames per second has been developed by the [http://www.shimadzu.com/an/test/hpv/hpv-x_1.html Shimadzu Corporation] in Japan. The camera uses a CMOS detector, perhaps not too different from those used in some astronomy cameras except for ultra-high recording speed. This short video shows the impact - speed not given - of a ball against a pane of glass. Does the resulting pattern of radial and concentric fractures remind you of anything familiar? Hopefully, your answer is, <em>Yes - multi-ring impact basins!</em> There are all sorts of reasons why we should be cautious in comparing the consequences of a few centimeter wide projectile hitting a thin glass target at unknown speed with an 100 km wide asteroid smashing into a massive, layered planetary body at cosmic speeds. But it is remarkable how enticing the similarities are. There doesn't seem to be any vertical changes to the glass surface - no Apennine Mountains rim is produced, nor is there an excavation stage leaving behind a deep hole. But the fracturing patterns are similar. Nectaris is a good place to see three or four concentric fractures around a basin center, it also has radial fractures (as well as large secondary crater chains). Too bad a camera like the one in today's LPOD was not operating 3.85 billion years ago - it would be stupendous to have a high speed recording of the Imbrium impact event.<br /> | + | A new camera with the capability of recording 10 million frames per second has been developed by the [http://www.shimadzu.com/an/test/hpv/hpv-x_1.html" rel="nofollow Shimadzu Corporation] in Japan. The camera uses a CMOS detector, perhaps not too different from those used in some astronomy cameras except for ultra-high recording speed. This short video shows the impact - speed not given - of a ball against a pane of glass. Does the resulting pattern of radial and concentric fractures remind you of anything familiar? Hopefully, your answer is, <em>Yes - multi-ring impact basins!</em> There are all sorts of reasons why we should be cautious in comparing the consequences of a few centimeter wide projectile hitting a thin glass target at unknown speed with an 100 km wide asteroid smashing into a massive, layered planetary body at cosmic speeds. But it is remarkable how enticing the similarities are. There doesn't seem to be any vertical changes to the glass surface - no Apennine Mountains rim is produced, nor is there an excavation stage leaving behind a deep hole. But the fracturing patterns are similar. Nectaris is a good place to see three or four concentric fractures around a basin center, it also has radial fractures (as well as large secondary crater chains). Too bad a camera like the one in today's LPOD was not operating 3.85 billion years ago - it would be stupendous to have a high speed recording of the Imbrium impact event.<br /> |
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− | <em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br /> | + | <em>[mailto:tychocrater@yahoo.com" rel="nofollow Chuck Wood]</em><br /> |
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Revision as of 22:57, 4 January 2015
Faster Than a Speeding Asteroid?
<iframe width="960" height="720" src="//www.youtube-nocookie.com/embed/Y55NPvR0sIc?rel=0" frameborder="0" allowfullscreen=""></iframe>
image by " rel="nofollow HyperVision HPV-X Camera of Shimadzu Corporation
A new camera with the capability of recording 10 million frames per second has been developed by the " rel="nofollow Shimadzu Corporation in Japan. The camera uses a CMOS detector, perhaps not too different from those used in some astronomy cameras except for ultra-high recording speed. This short video shows the impact - speed not given - of a ball against a pane of glass. Does the resulting pattern of radial and concentric fractures remind you of anything familiar? Hopefully, your answer is, Yes - multi-ring impact basins! There are all sorts of reasons why we should be cautious in comparing the consequences of a few centimeter wide projectile hitting a thin glass target at unknown speed with an 100 km wide asteroid smashing into a massive, layered planetary body at cosmic speeds. But it is remarkable how enticing the similarities are. There doesn't seem to be any vertical changes to the glass surface - no Apennine Mountains rim is produced, nor is there an excavation stage leaving behind a deep hole. But the fracturing patterns are similar. Nectaris is a good place to see three or four concentric fractures around a basin center, it also has radial fractures (as well as large secondary crater chains). Too bad a camera like the one in today's LPOD was not operating 3.85 billion years ago - it would be stupendous to have a high speed recording of the Imbrium impact event.
" rel="nofollow Chuck Wood