http://www.metafilter.com/tags/fluid Posts tagged with 'fluid' at MetaFilter. Tue, 01 Jul 2008 15:08:11 -0800 Tue, 01 Jul 2008 15:08:11 -0800 en-us http://blogs.law.harvard.edu/tech/rss 60 http://www.metafilter.com/72967/Liquid%2Dmirror%2Dtelescopes A <a href="http://www.astro.ubc.ca/LMT/lm/index.html">liquid mirror telescope</a> is made by <a href="http://www.astro.ubc.ca/lmt/Nodo/spinup.mpg">spinning</a> a <a href="http://www.astro.ubc.ca/lmt/Nodo/stop.mpg">reflective fluid</a>, such as mercury, at a constant rate. This rotation <a href="http://www.math.iupui.edu/m261vis/LMirror/mirrorproof.html">produces a parabolic surface</a>, which is an ideal shape for a telescope mirror. (You can <a href="http://demonstrations.wolfram.com/FluidRotatingInACylinder/">try this</a> yourself.) While these mirrors can be <a href="http://wood.phy.ulaval.ca/construction.html">built</a> to be <a href="http://www.astro.ubc.ca/LMT/lzt/gallery.html">large</a> and orders of magnitude cheaper than solid mirrors, they have the disadvantage that they can only look straight up. Creating mirrors this way is not new; they have a <a href="http://www.astro.ubc.ca/lmt/lmthis.ps">history</a> <small>[.ps]</small> that dates back to Newton. However, they have recently regained attention as the technology behind proposals to <a href="http://arxiv.org/abs/0806.2241">build an enormous (20m+) telescope on the moon</a>. (A less technical treatment <a href="http://www.space.com/businesstechnology/070620_liquid_mirror.html">here</a>.) tag:metafilter.com,2008:site.72967 Tue, 01 Jul 2008 15:08:11 -0800 astronomy fluid liquid liquidmirror liquidmirrortelescope lmt mercury mirror moon parabola parabolic paraboloid rotation telescope telescopes Upton O'Good http://www.metafilter.com/63927/Reversible%2DFlow <a href="http://www.physics.nyu.edu/pine/research/hydro/kinematic_reverse_2small.mov">Reversible flow!</a> In the 1960s, the National Committee for Fluid Mechanics Films produced a series of films for education in fluid mechanics. This clip is part of "<a href="http://modular.mit.edu:8080/ramgen/ifluids/Low_Reynolds_Number_Flow.rm">Low Reynolds Number Flow</a>"; you can find the entire collection streamed <a href="http://web.mit.edu/fluids/www/Shapiro/ncfmf.html">here</a>. Interesting demonstrations abound. <small>(1st link is QT; rest are RealPlayer.)</small> tag:metafilter.com,2007:site.63927 Fri, 17 Aug 2007 16:32:53 -0800 films fluid fluidmechanics lowreynoldsnumberflow mechanics ncfmf video Upton O'Good http://www.metafilter.com/62597/Cuz%2Dwhen%2Dyou%2Dgotta%2Dgo <a href="http://www.mizpee.com/web/howitworks.html">MizPee</a> works on your mobile phone to help you locate the nearest, cleanest bathroom. tag:metafilter.com,2007:site.62597 Tue, 03 Jul 2007 08:21:57 -0800 bathroom bladder bog can convenience Crapper discharge Dunny emergency excretion facilities fluid head john Khazi latrine lavatory loo Number1 Number2 onthego outhouse pee piss powderroom privy restroom toilet urea urine washroom WC wee Dave Faris http://www.metafilter.com/51516/spooky%2Dfluids <a href="http://arxiv.org/abs/physics/0511251">Order from chaos!</a> Fill a <a href="http://dcwww.fysik.dtu.dk/~tbohr/RotatingPolygon/subalbum_2.html"> cylindrical bucket</a> with water and make it so the bottom can spin. At certain speeds, stable <a href="http://dcwww.fysik.dtu.dk/~tbohr/RotatingPolygon/subalbum_1.html">regular polygonal shapes</a> will spontaneously form at the turbulent surface of the water. See the <a href="http://dcwww.fysik.dtu.dk/~tbohr/RotatingPolygon/img/3/RotatingPolygon.avi">video.</a> <small><small>[2.6MB avi] [via last week's <a href="http://link.aps.org/abstract/PRL/v96/e174502">PRL</a>]</small></small> tag:metafilter.com,2006:site.51516 Wed, 10 May 2006 15:14:04 -0800 chaos flow fluid fluids geometry physics polygon science turbulence sergeant sandwich http://www.metafilter.com/33193/Faraday%2DWave%2Dvideo <a href="http://www.cse.psu.edu/~migdal/cornstarch.wmv" title="A fluid layer in an open vessel is subject to a vertical vibration of given frequency w and amplitude a . As long as the amplitude of this effective gravity modulation g(t)=g0 [1 + a Cos(w t) ] remains below a critical threshold a_c the fluid surface is flat. For a (great than) a_c , a surface instability sets in and standing wave patterns appear on the surface. This is the onset of the so called _Faraday Instability_ (Faraday 1831)">This cornstarch, it vibrates.</a> (wmv 4MB) tag:metafilter.com,2004:site.33193 Wed, 19 May 2004 18:14:51 -0800 brokenlink cornstarch Faraday FaradayWave fluid physics ripples science video waves stbalbach