mirrored file at http://SaturnianCosmology.Org/ For complete access to all the files of this collection see http://SaturnianCosmology.org/search.php ========================================================== Missing "Dark" Matter!! What Was Missing Dutch astronomer Jan Oort first discovered the "missing matter" problem in the 1930's. By observing the "Doppler red-shift" values of stars moving near the plane of our galaxy, Oort assumed he could calculate how fast the stars were moving. Since the galaxy was not flying apart, he reasoned that there must be enough matter inside the galaxy such that the central gravitational force was strong enough to keep the stars from escaping, much as the Sun's gravitational pull keeps a planet in its orbit. But when the calculation was made, it turned out that there was not enough mass in the galaxy. And the discrepancy was not small; the galaxy had to be at least twice as massive as the sum of the mass of all its visible components combined. Where was all this "missing matter"? In addition, in the 1960's the radial profile of the tangential velocity of stars in their orbits around the galactic center as a function of their distance from that center was measured. It was found that typically, once we get away from the galactic center _all the stars travel with the same velocity _independent of their distance out from the galactic center_. _(See the figure below.) Usually, as is the case with our solar system, the farther out an object is, the slower it travels in its orbit. Figure 1. A star's velocity in its orbit as a function of its distance, R, from the center of the galaxy. To visualize the seriousness of the problem cosmologists face, we need to consider just a bit of Newtonian dynamics: * To change a body's velocity vector - either in direction or magnitude, or both, a force must be applied to the mass of the body. The resulting acceleration is equal to the ratio of the applied force divided by the mass of the object; i.e., _ f _= m _a_, where_ f _is the force applied to the body, m is the mass of the body, and _a_ is the resulting acceleration (change in velocity). Both _f _and _a_ are vectors; the change in direction of the velocity will be in the direction of the applied force. * When an Olympic athlete, starting to do the hammer throw, swings the hammer around himself in a circle, the force he feels stretching his arms (the force he is applying to the hammer) is the "centripetal force". That force is equal to the product of the hammer's mass, m1, times the "centripetal acceleration" (which in this case is the acceleration that continually changes only the _direction, _not the magnitude, of the velocity vector of the hammer - inward - so as to keep it in a circular orbit around the athlete). This acceleration is equal to the square of the hammer's linear velocity, v, divided by the radius of the circle. So, the inward force the athlete needs to exert to keep the hammer in its circular path is: f = m1 v^2/R. * Newton's law of gravitational force says that the force between two masses is equal to G (the gravitational "constant") times the product of the two masses divided by the square of the distance between them. f = G(m1 x m2)/R^2. Consider the case of a star on the outskirts of a galaxy. Its radius from the galactic center is R. Its mass is m1, and m2 is the total mass of everything else (all the other stars and matter) inside a circle whose radius is R, the distance of the star from the galaxy's center. All that combined mass, m2, acts as if it were located at a single point at the galaxy's center. For the star to remain in a fixed orbit, the necessary inward (centripetal) force, m1 V^2/R, must be exactly equal to the available (gravitational) force, G(m1 x m2)/R^2. Setting these two expressions equal to each other results in the expression: m2 = (V^2) R /G This, of course, says that for the tangential velocity, V, to remain constant as R increases - as it does in figure 1 (as we look at stars farther and farther out from the galaxy's center) the included mass, m2, must increase proportionally to the radius. But we realize that, if we move far out from the center, to the last few stars in any galaxy, included mass will not increase proportionally to the radius. So there seems to be no way the velocity can remain the same for the outermost stars as for the inner stars. Therefore, astronomers have concluded that, either some mass is "missing" in the outer regions of galaxies, or the outer stars rotating around galaxy cores do not obey Newton's law of gravity. There were problems, too, at a larger scale. In 1933 astronomer Fritz Zwicky announced that when he measured the individual velocities of a large group of galaxies known as the Coma cluster, he found that all of the galaxies that he measured were moving so rapidly relative to one another that the cluster should have come apart long ago. The visible mass of the galaxies making up the cluster was far too little to produce enough gravitational force to hold the cluster together. So not only was our own galaxy lacking mass, but so was the whole Coma cluster of galaxies. MACHOs, WIMPs & MOND At first, cosmologists decided to leave Newton's laws inviolate and to postulate the existence of some "invisible, unmeasureable, dark" entities to make up the missing mass. To quote Astronomy magazine (Aug. 2001 p 26): "What's more, astronomers have gone to great lengths to affectionately name, define, and categorize this zoo of invisible stuff called dark matter. There are the MAssive Compact Halo Objects (MACHOs) - things like ... black holes, and neutron stars that purportedly populate the outer reaches of galaxies like the Milky Way. Then there are the Weakly Interacting Massive Particles (WIMPs), which possess mass, yet don't interact with ordinary matter - baryons such as protons and neutrons - because they are composed of something entirely foreign and unknown. Dark matter even comes in two flavors, hot (HDM) and cold (CDM)....." 1. Cold dark matter - supposedly in dead stars, planets, brown dwarfs ("failed stars") etc. 2. Hot dark matter - postulated to be fast moving particles floating throughout the universe, neutrinos, tachions etc. "And all the while astronomers and physicists have refined their dark matter theories without ever getting their hands on a single piece of it. But where is all of this dark matter? The truth is that after more than 30 years of looking for it, there's still no definitive proof that WIMPs exist or that MACHOs will ever make up more than five percent of the total reserve of missing dark stuff." Of course, the second possibility mentioned above (that the outer stars rotating around galaxy cores do not obey Newton's Law of Gravity) was thought to be impossible. But the first alternative - the fanciful notion that 99% of the matter in the universe was "invisible" - began to be worrisome too. It was stated that WIMPs and MACHOs were in the category of particle known as "Fabricated Ad hoc Inventions Repeatedly Invoked in Efforts to Defend Untenable Scientific Theories" (FAIRIE DUST). Even such an august authority as Princeton University cosmologist Jim Peebles has been quoted as saying, _"It's an embarrassment that the dominant forms of matter in the universe are hypothetical..."_ So the second alternative, radical as it is, was chosen by some astronomers and called "MOdify Newton's Dynamics" (MOND). This paradigm shaking proposal to alter Newton's Law of Gravity - because it does not seem to give correct answers in the low density regions of galaxies - was first put forward in 1983 by astrophysicist Moti Milgrom at the Weizman Institute of Science in Israel. It has recently been given more publicity by University of Maryland astronomer Stacy McGaugh. Some other astronomers have grasped at the announcement that neutrinos, that permeate the cosmos, have mass. This, they say, must be the previously "missing matter". But the "missing mass" is not missing homogeneously throughout the universe - just in specific places (like the outer reaches of galaxies). The neutrinos are homogeneously distributed. So this last ditch explanation fails as well. The dilemma presented by the fact that Newton's Law of Gravity does not give the correct (observed) results in most cases involving galaxy rotation can only be resolved by realizing that Newton's Law of Gravity is simply not applicable in these situations. Galaxies are not held together by gravity. They are formed, driven, and stabilized by dynamic electromagnetic effects. The Real Explanation: Dynamic Electromagnetic Forces in Cosmic Plasmas Ninety nine percent of the universe is made up of tenuous clouds of ions and electrons called "electric plasma". Plasmas respond to the electrical physical laws codified by James Clerk Maxwell and Oliver Heaviside in the late 1800's. An additional single law due to Hendrick Lorentz explains the "mysterious" stellar velocities described above. _d/dt(m__v_) = q(_E + v _x _B_) Simply stated, this law says that a moving charged particle's momentum (direction) can be changed by application of either an electric field, _E_, or a magnetic field, _B, _or both. Consider the mass and charge of a proton for example. The electrical force (given by the above Lorentz equation) between two protons is 36 orders of magnitude greater than the gravitational force (given by Newton's equation). It's not that Newton's Law is wrong. It is just that in deep space it is totally overpowered by the Maxwell-Lorentz forces of electromagnetic dynamics. Electrical engineer Dr. Anthony L. Peratt, using Maxwell's and Lorentz's equations, has shown that charged particles, such as those that form the intergalactic plasma, will evolve into very familiar galactic shapes under the influence of electrodynamic forces. (See the previous page on Electric Plasma.) The results of these simulations fit perfectly with the observed values of the velocity contours in galaxies. No missing matter is needed - and Newton can rest easy in his grave. The electromagnetic force is many orders of magnitude stronger than the force due to gravity. But present day astronomy refuses to recognize the existence of any cosmic force other than gravity. An allegory: A farmer and his young daughter are driving along a dusty road. They are almost home when the car breaks down. The farmer walks to the barn and gets his horse, Dobbin. He harnesses Dobbin to the front bumper of the car and begins to drag it along the road toward home. The young daughter takes a piece of string and attaches it to the bumper and says, "I'll help drag the car, Daddy." Anyone who cannot see horses will think the daughter must possess "missing muscle". In 1986, Nobel laureate Hannes Alfven postulated both an electrical galactic model and an electric solar model. Recently physicist Wal Thornhill has pointed out that Alfven's circuits are really scaled up versions of the familiar homopolar motor that serves as the watt-hour meter on each of our homes. The simple application of the Lorentz force equation ("crossing" the direction, _v_, of the current into the direction, _B_, of the magnetic field) yields a rotational force. Not only does this effect explain the "mysterious" tangential velocities of the outer stars in galaxies, but also (in scaled down version) the observed fact that our Sun rotates faster at its equator than at higher (solar) latitudes. Up to now astronomers and cosmologists have not given serious consideration to any sort of electrical explanation for any of the above phenomena. This is puzzling because all these electrical principles have now been known for decades. They have long been applied in the solution of problems in plasma laboratories here on Earth and have been used successfully in the invention of many practical devices - such as industrial electrical arc machining, particle accelerators, etc. The correct, simple, solution to the "mysteries" of galaxy rotation lies in Plasma Electro-Dynamics - not in the invention of imaginary, fanciful entities such as WIMPs and MACHOs or in the trashing of a perfectly valid law of physics as is proposed in MOND. Conclusion Present day astronomy/cosmology seems to be on the horns of a very painful dilemma. This dilemma is caused by the fact that Newton's Law of Gravity does not give the correct (observed) results in most cases involving galaxy rotation. The "missing matter" proposal attempts to balance the equation by increasing one of the variables (one of the mass terms). The second proposal (MOND) is to change Newton's equation itself. (If you are losing the game, change the rules.) But, the ultimate resolution of the dilemma lies in realizing that Newton's Law of Gravity is simply not applicable in these situations. Maxwells equations are! ______________________________________________________________ Ref: http://www.circlon.com/HTML/darkmatter.html http://physun.physics.mcmaster.ca/~pgs/dark-matter3.html "Physics of the Plasma Universe", Anthony L. Peratt, Springer-Verlage, 1992 p. 120. [1]Next Page ----> [2]Return to the Main Page [3][hit.asp?sSiteName=dascott2] References 1. file://localhost/www/sat/files/sun.htm 2. file://localhost/www/sat/files/index.htm 3. http://www.stats4all.com/asp/login.asp?sSiteName=dascott2