“This would be like an F8 tornado sweeping across the surface. These are winds on Mars that will never be seen again unless [there is] another impact.” -Peter Schultz
When you examine craters on the surfaces of worlds across the solar system, you find that there are rays emanating outward, containing a mix of ejecta from the impactor and the surface itself. But there’s a limit to how far those rays go, and that’s normally dependent on the size of the crater. In a few instances on Mars, however, those rays go much, much farther than physics would indicate.
A detailed, infrared view of a crater on Mars at night reveals these distant, outward streaks that hold onto heat better than all the surrounding areas. Scientists believe rolling tornadoes are the core explanation. Image credit: NASA/JPL/MSSS/HiRISE.
This is puzzling, especially given how sparse Mars’ atmosphere is, and what a small effect it’s thought to have. But despite its low density atmosphere, Mars often exhibits weather that’s surprisingly violent, like dust devils and tornadoes faster than anything on Earth. In fact, high-powered gun range experiments on Earth show that sideways-barreling tornadoes can be produced with events like these fantastic impacts, and that could explain these unique, distant streaks.
These experiments at the Ames Vertical Gun Range helps researchers understand how surfaces and vapor plumes respond when struck by both hollow and solid impactors at high speeds. Image credit: Brown University/Peter H. Schultz and Brendan Hermalyn, NASA/Ames Vertical Gun Range.
from ScienceBlogs http://ift.tt/2raB9Ms
“This would be like an F8 tornado sweeping across the surface. These are winds on Mars that will never be seen again unless [there is] another impact.” -Peter Schultz
When you examine craters on the surfaces of worlds across the solar system, you find that there are rays emanating outward, containing a mix of ejecta from the impactor and the surface itself. But there’s a limit to how far those rays go, and that’s normally dependent on the size of the crater. In a few instances on Mars, however, those rays go much, much farther than physics would indicate.
A detailed, infrared view of a crater on Mars at night reveals these distant, outward streaks that hold onto heat better than all the surrounding areas. Scientists believe rolling tornadoes are the core explanation. Image credit: NASA/JPL/MSSS/HiRISE.
This is puzzling, especially given how sparse Mars’ atmosphere is, and what a small effect it’s thought to have. But despite its low density atmosphere, Mars often exhibits weather that’s surprisingly violent, like dust devils and tornadoes faster than anything on Earth. In fact, high-powered gun range experiments on Earth show that sideways-barreling tornadoes can be produced with events like these fantastic impacts, and that could explain these unique, distant streaks.
These experiments at the Ames Vertical Gun Range helps researchers understand how surfaces and vapor plumes respond when struck by both hollow and solid impactors at high speeds. Image credit: Brown University/Peter H. Schultz and Brendan Hermalyn, NASA/Ames Vertical Gun Range.
from ScienceBlogs http://ift.tt/2raB9Ms
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