First of all, the pop quiz, consisting of a single question, was not answered. Guaranteed F right there.
Secondly, its touching that a few numbers were offered<http://darkmattersalot.com/2012/11/23/a-dog-knows/>as an appearance of a start to a counter-argument to the hamburger helper hypothesis, however they were buried in verbiage that did very little, and zero arithmetic to advance that argument. In the words of the Late Great John McCarthy: He who refuses to do arithmetic is doomed to talk nonsense. You get an F+ On Fri, Nov 23, 2012 at 12:01 PM, ChemE Stewart <cheme...@gmail.com> wrote: > Jim, > > Just trying to get my grade up at the unaccredited Bowery U, I have placed > an explanation on my blog on how a massive collapsed matter particle from a > CME can achieve and maintain orbit through and around the Earth. If you > have 5 minutes it is on my blog > > Stewart > darkmattersalot.com > > > > > > On Mon, Nov 19, 2012 at 3:30 PM, ChemE Stewart <cheme...@gmail.com> wrote: > >> The other thing to note is the particle is in a decaying Earth orbit, not >> your silly ass Wolfram 1st grade example. >> >> >> On Monday, November 19, 2012, James Bowery wrote: >> >>> I'm sorry, that answer is only a little better than "Its in the library >>> somewhere." >>> >>> You get an F. >>> >>> On Mon, Nov 19, 2012 at 1:53 PM, ChemE Stewart <cheme...@gmail.com>wrote: >>> >>> Read my blog >>> >>> >>> On Monday, November 19, 2012, James Bowery wrote: >>> >>> Pop quiz! >>> >>> Kepler is famous for having solved calculus derivation of minima and >>> maxima of a curve when presented with the challenge of finding the optimum >>> shape for a barrel of dill pickles to go with the tasty char broiled >>> hamburgers that history now recognizes as the inspiration for flavour in >>> physics. >>> >>> Kepler is also famous for having found the closed form solution to the >>> two body orbital problem where the mass and velocities of two co-orbiting >>> bodies is known. >>> >>> Given the mass of the earth and the purported orbital speed of the >>> gremlin of thousands of kilometers per second, what is the minimum mass of >>> a gremlin that can result in a maximal orbital velocity of just 1000 >>> kilometers per second? >>> >>> On Mon, Nov 19, 2012 at 12:36 PM, ChemE Stewart <cheme...@gmail.com>wrote: >>> >>> Notice Woflram does not show you the particle mass. Orbits depend on >>> more than just velocity. Also notice that the research does not place a >>> lower limit on mass: >>> >>> "If the WIMP is heavy even with optimistic assumptions and large >>> exposures >>> it will only be possible to place a lower limit on its mass" >>> >>> Also notice that two body Kepler orbits do not necessarily orbit around >>> the center of mass of either object they orbit a barycenter, which may >>> place their orbit above and below the surface of matter that they weakly >>> interact with. >>> >>> Also notice that if a good portion of your orbit is through a mass that >>> you interact gravitationally with it will attempt to lock you in as opposed >>> to an orbiting satellite in space. Just like the moving ocean mass will >>> attempt to steer you gravitationally. >>> >>> Also notice that your hamburger just disappeared thru beta decay while >>> you were not watching and listening to me. >>> >>> Stewart >>> darkmattersalot.com >>> >>> >>> >>> >>> >>> >>> >>> >>> On Mon, Nov 19, 2012 at 1:21 PM, James Bowery <jabow...@gmail.com>wrote: >>> >>> My, Goodness! >>> >>> You'd better get over there to Wolfram's model of WIMP Orbiting Inside >>> Earth >>> >>> http://demonstrations.wolfram.com/WIMPOrbitingInsideEarth/ >>> >>> And tell them to fix their units labeling. If one were a hamburger >>> helper physicist, one might be led to believe that the speed unit was m/s >>> rather than km/s! >>> >>> >>> On Mon, Nov 19, 2012 at 12:09 PM, ChemE Stewart <cheme...@gmail.com>wrote: >>> >>> Stick to cooking hamburgers. You make much more sense in your field of >>> knowledge >>> >>> local WIMP speed distribution is known (Maxwellian with vc=220 km/s) >>> http://conferences.fnal.gov/dmwksp/Talks/AGreen.pdf >>> >>> fits great with my orbital model speed and mass of a massive collapsed >>> particle >>> >>> I have supplied plenty of predictions as to location and detection for >>> you/others to prove me wrong. I have also supplied plenty of observations >>> that fit. I suggest you camp out near an actively growing sinkhole and >>> cook your hamburgers on your beta decay grill. >>> >>> >>> >>> >>> >>> >>> >>> >>> On Mon, Nov 19, 2012 at 12:42 PM, James Bowery <jabow...@gmail.com>wrote: >>> >>> iYes, of course! The weak interaction, which essentially disappears at >>> a distance of around 10^-17m, provides many orders of magnitude greater >>> force than does gravitation at scales of 10^3m. This is why a gremlin >>> travelling at speeds orders of magnitude above escape >>> >>> >
