Moontanman Posted February 22, 2013 Posted February 22, 2013 Wow, so that might be what it looks like to see a hyper velocity neutron star, punching thru Earth? Not quite, a neutron star is VERY tiny compared to an 8,000 mile wide Earth, only 12 miles across, and a perfect sphere. It would be a tiny dot with a thin tail (or how thick a tail could it create?) of Earth material following it. But nice poster, never-the-less. Thanks for posting that mountainman. that picture is actually a photo shopped picture of a high powered rifle bullet going through an apple, no connection what so ever to a neutron stars going through the earth, but as you say it is funny.. Last I heard, Tunguska level events were every few hundred years, but that is a meteor 50 YARDS across. The recent Siberian blast of 2-15-13 was said to be a once in a hundred years, only 50 feet across. Ok that explains the discrepancy for some reason i had thought they were of comparable size.
Amaton Posted February 23, 2013 Posted February 23, 2013 Okay, using the formula from x(x-y), I tried the Chelyabinsk meteor. Assuming a constant speed of approx. 0.99c and a constant rest mass of 10,000,000 kg: [math]E_k\approx1.3472\times10^{32}\,\mbox{kJ}[/math] ...according to my calculation. Now this is quite a punch!
michel123456 Posted February 23, 2013 Posted February 23, 2013 Wow, so that might be what it looks like to see a hyper velocity neutron star, punching thru Earth? Not quite, a neutron star at 12 miles across is VERY tiny compared to an 8,000 mile wide Earth. It would be a tiny dot with a thin tail (or how thick a tail could it create?) of Earth material following it. It would go thru Earth like a bullet thru a cloud. But nice poster, never-the-less. Thanks for posting that mountainman.(...) You are completely wrong: it is Moon-Tan-Man. 1
Airbrush Posted February 23, 2013 Posted February 23, 2013 You are completely wrong: it is Moon-Tan-Man. Yes, I know, I was just joking. You can call me hairbrush if you like. 1
michel123456 Posted February 23, 2013 Posted February 23, 2013 Yes, I know, I was just joking. You can call me hairbrush if you like. Oh that's funny. I just noticed the missing H.
michel123456 Posted February 24, 2013 Posted February 24, 2013 (edited) ------------------- Still looking for info about the flash. found this: from the American Meteor Society frireballs FAQ under section 5. Can fireballs appear in different colors? (...) The difficulties of specifying meteor color arise because meteor light is dominated by an emission, rather than a continuous, spectrum. The majority of light from a fireball radiates from a compact cloud of material immediately surrounding the meteoroid or closely trailing it. 95% of this cloud consists of atoms from the surrounding atmosphere; the balance consists of atoms of vaporized elements from the meteoroid itself. These excited particles will emit light at wavelengths characteristic for each element. The most common emission lines observed in the visual portion of the spectrum from ablated material in the fireball head originate from iron (Fe), magnesium (Mg), and sodium (Na). Silicon (Si) may be under-represented due to incomplete dissociation of SiO2 molecules. Manganese (Mn), Chromium (Cr), Copper (Cu) have been observed in fireball spectra, along with rarer elements. The refractory elements Aluminum (Al), Calcium (Ca), and Titanium (Ti) tend to be incompletely vaporized and thus also under-represented in fireball spectra. (emphasis mine) Again I understand that the flash results from the explosion of ionized particles from the atmosphere. When googling about explosion of ionized particles the return is ionizing radiation Ionizing (or ionising) radiation is radiation composed of particles that individually carry enough kinetic energy to liberate an electron from an atom or molecule, ionizing it. Ionizing radiation is generated through nuclear reactions, either artificial or natural, by very high temperature (e.g. plasma discharge or the corona of the Sun), via production of high energy particles in particle accelerators, or due to acceleration of charged particles by the electromagnetic fields produced by natural processes, from lightning to supernova explosions.Plasma discharge. With the following Ionizing radiation hazard symbol That reminds the reassuring russian announcement immediately after the fall that "radiations levels are normal" or something like that. So my question is: did the kinetic energy of the meteor trigger a natural thermonuclear reaction? Edited February 24, 2013 by michel123456
D H Posted February 24, 2013 Posted February 24, 2013 So my question is: did the kinetic energy of the meteor trigger a natural thermonuclear reaction? No. You are conflating ionizing radiation with an ionized gas and are then extrapolating from there. There was very little, if any, ionizing radiation produced by the fireball. Ionizing radiation is x-rays and gamma rays, plus massive particles (i.e., not photons) moving at relativistic speeds. Even if the flash did produce some x-rays, gammas, or some very fast moving massive particles, that still doesn't mean that a thermonuclear reaction was involved. There was no such reaction. There was nothing to produce such a reaction, fusion or fission.
michel123456 Posted February 24, 2013 Posted February 24, 2013 (edited) No. You are conflating ionizing radiation with an ionized gas and are then extrapolating from there. There was very little, if any, ionizing radiation produced by the fireball. Ionizing radiation is x-rays and gamma rays, plus massive particles (i.e., not photons) moving at relativistic speeds. Even if the flash did produce some x-rays, gammas, or some very fast moving massive particles, that still doesn't mean that a thermonuclear reaction was involved. There was no such reaction. There was nothing to produce such a reaction, fusion or fission. But there was a plasma discharge. then maybe something more like a lightning ---------------- (edit) ionized gas is plasma. Edited February 24, 2013 by michel123456
D H Posted February 24, 2013 Posted February 24, 2013 ionized gas is plasma. Yes, it is. However, that does not necessarily mean that ionizing radiation is essential to creating a plasma. Heat will also do the trick.
michel123456 Posted February 24, 2013 Posted February 24, 2013 Yes, it is. However, that does not necessarily mean that ionizing radiation is essential to creating a plasma. Heat will also do the trick. releasing 30 times the hiroshima bomb?
Moontanman Posted February 24, 2013 Posted February 24, 2013 I think it should also be pointed out that ionizing radiation doesn't necessarily mean radioactivity or radioactive particles, EM is ionizing as well... and friction produces EM radiation... An object hitting the Earth at 18,000 mph would have to produce some intense friction...
michel123456 Posted February 24, 2013 Posted February 24, 2013 http://en.wikipedia.org/wiki/Ionizing_radiation
Moontanman Posted February 24, 2013 Posted February 24, 2013 (edited) http://en.wikipedia.org/wiki/Ionizing_radiation From your link... Ionizing radiation includes cosmic rays, Alpha particles, Beta particles, Gamma rays, X-rays, and in general any charged particle moving at relativistic speeds. Neutrons are considered ionizing radiation at any speed. Ionizing radiation includes some portion of the ultraviolet spectrum, depending on context. Radio waves, microwaves, infrared light, and visible light are normally considered non-ionizing radiation, although very high intensity beams of these radiations can produce sufficient heat to exhibit some similar properties to ionizing radiation, by altering chemical bonds and removing electrons from atoms. EM radiation is ionizing under the right circumstances... Edited February 24, 2013 by Moontanman
michel123456 Posted February 24, 2013 Posted February 24, 2013 Still looking and collecting sparse information this (from unreliable source) A few people speculated about EMP. Most of the energy spent slowing the meteor is used to form a plasma shield which does several things. First, it actually insulates the rock and delays the heat transfer to it. Second, the heat in the plasma is high enough to generate lots of light and other radiation. Third, it is electrically active and moving through the earth's magnetic field which means it could generate radio waves, a form of EMP. that is about the tray. When the tray explodes (flash) and produces a light brighter than the sun, there must be something going on. It is not the asteroid burning because it is asserted that falling meteors are cold. Make a google search about plasma explosion pictures.
Moontanman Posted February 24, 2013 Posted February 24, 2013 Is it possible that the sudden increase in surface area when the meteor comes apart causes the sudden release of energy?
Airbrush Posted February 25, 2013 Posted February 25, 2013 (edited) Yes the great increase in surface area, in an instant, is what caused the HiroshimaX30 blast and shock wave, followed by a series of smaller sonic booms when the smaller pieces again fragmented. Edited February 25, 2013 by Airbrush
michel123456 Posted February 25, 2013 Posted February 25, 2013 But what caused the flash? The flash. I am tired. I quit.
Moontanman Posted February 25, 2013 Posted February 25, 2013 Michel, I am pretty sure I nailed that in post number #90...
akh Posted February 28, 2013 Posted February 28, 2013 I would think it would be a comet orbiting the Sun in the opposite direction. How fast could that be? Halley's comet was moving 43 miles per second as it passed Earth. I dont think that can happen, or at least to my knowledge it has never been observed. Because of the conversation of angular moment, all celestial objects in our solar system rotate around the sun in the same direction. Cornell University has made a preliminary model of the likely orbit of the object, based on video of the event and some math. http://urania.udea.edu.co/sitios/facom/research/chelyabinsk-meteoroid.php http://arxiv.org/abs/1302.5377
Airbrush Posted February 28, 2013 Posted February 28, 2013 (edited) Akh, your links say nothing about what direction a comet can orbit the Sun. Does anyone know if all comets orbit the Sun the same direction as all the planets? I don't think so. Long-period comets come from the Oort cloud and I think they go around the Sun in irregular orbits, on any plane, and in any direction. "Long-period comets have highly eccentric orbits and periods ranging from 200 years to thousands or even millions of years..." http://en.wikipedia.org/wiki/Comet Edited February 28, 2013 by Airbrush
pwagen Posted February 28, 2013 Posted February 28, 2013 Hard to find information on it, but it seems the comets with short orbits generally (but not always) orbit in the same direction as the planets, while the long-period ones are a lot more random. However, the most accurate details on this were found on a creationist site (don't ask). But I'd say this sounds reasonable until further notice/better sources.
SciFiReal Posted March 1, 2013 Posted March 1, 2013 What method of dodging the bas*ards is the easiest to achieve? http://scifi-real.com/how-to-avoid-impacts-with-objects-from-space/ I like the gravity pull one to nudge an object, but it takes ages and you must see it coming a long time before it collides with Earth.
akh Posted March 1, 2013 Posted March 1, 2013 (edited) Akh, your links say nothing about what direction a comet can orbit the Sun. Does anyone know if all comets orbit the Sun the same direction as all the planets? I don't think so. Long-period comets come from the Oort cloud and I think they go around the Sun in irregular orbits, on any plane, and in any direction."Long-period comets have highly eccentric orbits and periods ranging from 200 years to thousands or even millions of years..."http://en.wikipedia.org/wiki/Comet The purpose of the links was to provide additional information to the Feb 15 event. I did not intend for them to support the idea that all objects orbit in the exact same plane and direction. No doubt comets and asteriods have been acted upon by gravitational pulls othe planets and collisions. Some do follow eccentric ororbits as a result. But by the very nature of the way solar systems form, most objects do indeed orbit in the same direction. I will not claim it is an absolute, that would be foolish in any area of science. I will try to find some literature to back this up. Edited March 2, 2013 by akh
D H Posted March 1, 2013 Posted March 1, 2013 A small number of asteroids and short period comets have retrograde orbits. For an example of a comet that orbits retrograde, one need look no further than the most famous comet of all, Halley's Comet. The majority of long period comets apparently have a retrograde orbit.
Airbrush Posted March 3, 2013 Posted March 3, 2013 (edited) What method of dodging the bas*ards is the easiest to achieve? http://scifi-real.com/how-to-avoid-impacts-with-objects-from-space/ I like the gravity pull one to nudge an object, but it takes ages and you must see it coming a long time before it collides with Earth. Easiest and quickest is the direct approach, smacking it with as much mass as we can or exploding a nuke near enough to cause massive outgassing, if it is not too large. Those methods are quick and dirty last resorts, no telling what direction they will take assuming it is probably rotating. It would be nice to know if it is solid metal, rock, or a rubble pile. If it is several miles across and far enough away, I propose a Bruce Willis, dig into the center and blow it up to scatter the pieces as far apart as possible. Gravity tractors are among the indirect methods, best but they take a long time to work. We will probably not see a Tunguska sized object until it is too late, but probably it will not destroy a major city. Edited March 3, 2013 by Airbrush
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