Time-Lapse Video: The Magnificent Power of a Supercell
Posted: Sat Jun 15, 2013 12:46 am
I love a skillfully created time-lapse accompanied by beautiful music. In this vid, you’ll hear, at mark 0.20, a drone sounding in a lower register, and, above it enter, at about mark 0.25, three- and maybe four-part harmonies. I’ve an affinity for sounds of human voices singing, so, of course, that’s what I’m wanting to hear in aerial sounding harmonies, composed for voices’ upper registers as an harmonic motif, for which the composer’s intent might have been pondered as sounds of music within an approaching thundercloud, for example.
The music, titled impact lento, used for this vid was composed by Kevin MacLeod, Incompetech, and his works have been enjoyable since it seems he’s competent with sensitivities for and certain style techniques of music theory. Anyway, I think this vid and its music are beautiful.
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Time-Lapse Video: The Magnificent Power of a Supercell | Phil Plait
Bad Astronomy | Friday, June 14, 2013, at 11:32 AM

^ Shortly after this was taken, the Chitauri came pouring out. Video screenshot courtesy of Mike Olbinski
The music, titled impact lento, used for this vid was composed by Kevin MacLeod, Incompetech, and his works have been enjoyable since it seems he’s competent with sensitivities for and certain style techniques of music theory. Anyway, I think this vid and its music are beautiful.
_________________
Time-Lapse Video: The Magnificent Power of a Supercell | Phil Plait
Bad Astronomy | Friday, June 14, 2013, at 11:32 AM

^ Shortly after this was taken, the Chitauri came pouring out. Video screenshot courtesy of Mike Olbinski
- Stop whatever you are doing, make this full screen, and prepare to be awed: This time-lapse video of a supercell storm cloud rotating over Texas is far and away the most amazing thing you’ll see today.
Yes, that’s real.
A supercell is a rotating thundercloud; the spinning vortex in the middle is called a mesocyclone. Conditions need to be just so to create one. First you need a wind shear, where wind blows faster in one spot than another, so a blanket of air is flowing over another one. This sets up a rolling vortex, a horizontally rotating mass of air like the way a wave breaks when it gets to a beach. An updraft then lifts that vortex, which then spins vertically.
The warmer air in the vortex rises; this is called convection. If there’s a boundary layer of air above it, called a capping layer, it acts like a lid, preventing the vortex air from rising. It builds up power and can suddenly and explosively grow to a huge size. Wikipedia has a good description and diagrams of how this works.
Supercells generally form where there’s a lot of flat land to get that good horizontal flow first. Texas has that in abundance, which is why photographer Mike Olbinski went there in hopes of getting footage like this. (Read his description of his adventure on the Vimeo page for the video; it’s quite good.) Texas, it so happens, is roomy, so it took him four years to be at the right spot at the right time—in this case, June 3. Persistence paid off for him, and because he shared this terrifying beauty, it paid off for all of us. Olbinski has several other incredible storm-chasing photos on his website.
I’m fascinated by weather phenomena, and supercells like this are something I’d love a chance to see from close by … but not too close by. They can create havoc locally, with torrential downpours (that look like alien spaceworms blasting the Earth), severe lightning, and tornadoes. Given that, maybe video like this is satisfying enough for now.
Tip o’ the tornado cellar door to BABloggee Jeremy Huggins.
