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"It's amazing to discover such a startlingly large and important feature of an object that has been known and studied for over 400 years
Wavelengths are synchronized to frequencies. Together they transmit electromagnetic waves in constant speed. All transmission waves in our earth space are synchronized to transmissions in the solar system. The transmissions of solar system are then synchronized to those of the Milky Way system In fact, all such transmission in the whole universe are synchronized, because they are all the same electromagnetic waves.
emissions from galaxies as Cosmic Microwave Radiation or the electromagnetic radiations, and such radiations reach a distance of about 1000 light years in our own galaxy, the Milky Way.
But in most normal galaxies, the radiation is seen as a bulging halo gradually towards the central region of the main galactic body. This bulging halo extends tens of thousands of Light Years in distance. For our Milky Way the extension is about 1000 Light Years.
The plasma sheets that our whole solar system is now approaching are composed of interstellar gasses that become ionized by galactic waves which pulse rhythmically from the Central Sun, around which our whole galaxy rotates. The spiral galactic form is shown above with the underlying macro-structure of ultra-low frequency infrasound standing waves that
The pulses are coming from a spot just to one side of the galactic centre. Each pulse lasts about 10 minutes, and they repeat regularly every 77 minutes. If, as the researchers think, the source is near the centre of the Milky Way, it would be one of the most powerful emitters in the galaxy
"These calculations are based on some arbitrary advance in technology or some alien technology that would let us manipulate the extra dimension," said Cleaver.
What the scientists were able to estimate was the amount of energy necessary, if the technology was available, to change these dimensions: about 10^45 joules.
"That's about the amount of energy you'd get if you converted the entire mass of Jupiter into pure energy via E = mc^2," said Cleaver, an energy far beyond anything humanity can currently envision creating.
Genzel's team saw a flickering of near-infrared light they presume is generated by hot gas falling into the black hole, just before the gas disappears beyond the "event horizon," a point of no return for light and matter.
"If our interpretation is right, this is the first solid evidence for a spin of a massive black hole," Genzel said in an e-mail interview.
The black hole spins once every 11 minutes or so, Genzel estimates, though an exact figure is difficult to pin down. The estimate represents a pace equal to about 30 percent of the speed of light
For years scientists said the black hole contained about 2.6 million times the mass of the Sun. They now believe the figure is somewhere between 3.2 million and 4 million solar masses.
"The total mass of the stars and gas in our galaxy is about 200 billion solar masses … its total mass may be 1000 billion solar masses."
"The name 'tachyon' (from the Greek 'tachys,' meaning swift) was coined by the late Gerald Feinberg of Columbia University. Tachyons have never been found in experiments as real particles traveling through the vacuum, but we predict theoretically that tachyon-like objects exist as faster-than-light 'quasiparticles' moving through laser-like media. (That is, they exist as particle-like excitations, similar to other quasiparticles called phonons and polaritons that are found in solids.
In 1928, an American astronomer Milton La Salle Humason found a galaxy that was receding at a speed of 3,800 km/s, and by 1936, when he observed the same galaxy again, he found it receding at a speed of 40,000 km/s. It didn't make any sense that the galaxies be receding from us and yet the recessions would be faster as they get farther way from each other. "Was there something special about our galaxy? Did it repel other galaxies, and did this repulsion grow stronger with distance?
Antimatter particles are created in ultra high-speed collisions
"However, there must be some boundary where antimatter atoms from the antimatter galaxies or stars will come into contact with normal atoms," Share notes. "When that happens a large amount of energy in the form of gamma rays would be produced..Simply put, antimatter is a fundamental particle of regular matter with its electrical charge reversed. The common proton has an antimatter counterpart called the antiproton. It has the same mass but an opposite charge. The electron's counterpart is called a positron.
Theory argues that antimatter would behave identical to regular matter gravitationally...antimatter are also created by the decay of radioactive material, positron that's produced by decay almost immediately finds an electron and annihilates into two gamma rays and move in opposite directions
Black holes + dark matter = light
They seen a Black Hole(quasiparticles) saddly they don't realize it...
TWO of the darkest things in the universe may be making light - or at least, radiation. When jets spat out by a supermassive black hole at the centre of a galaxy collide with dark matter, they could produce gamma rays detectable from Earth - possible evidence of the elusive dark stuff.
Originally posted by ker2010
reply to post by Vonour
What else did you see when you traveled back in time to see these events? Also does your time machine operate on the same principal as the Tardis in Dr Who?
[edit on 27-8-2010 by ker2010]
[edit on 27-8-2010 by ker2010]
Electromagnetism
Electricity · Magnetism [show]Electrostatics
Electric charge · Coulomb's law · Electric field · Electric flux · Gauss's law · Electric potential · Electrostatic induction · Electric dipole moment · Polarization density
[show]Magnetostatics
Ampère’s law · Electric current · Magnetic field · Magnetization · Magnetic flux · Biot–Savart law · Magnetic dipole moment · Gauss's law for magnetism
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Free space · Lorentz force law · emf · Electromagnetic induction · Faraday’s law · Lenz's law · Displacement current · Maxwell's equations · EM field · Electromagnetic radiation · Liénard–Wiechert potential · Maxwell tensor · Eddy current
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Electrical conduction · Electrical resistance · Capacitance · Inductance · Impedance · Resonant cavities · Waveguides
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Electromagnetic tensor · EM Stress-energy tensor · Four-current · Electromagnetic four-potential
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Ampère · Coulomb · Faraday · Gauss · Heaviside · Henry · Hertz · Lorentz · Maxwell · Tesla · Volta · Weber · Ørsted
v • d • e
Electromagnetic radiation (often abbreviated E-M radiation or EMR) is a phenomenon that takes the form of self-propagating waves in a vacuum or in matter. It comprises electric and magnetic field components, which oscillate in phase perpendicular to each other and perpendicular to the direction of energy propagation. Electromagnetic radiation is classified into several types according to the frequency of its wave; these types include (in order of increasing frequency and decreasing wavelength): radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays. A small and somewhat variable window of frequencies is sensed by the eyes of various organisms; this is what is called the visible spectrum. The photon is the quantum of the electromagnetic interaction and the basic "unit" of light and all other forms of electromagnetic radiation and is also the force carrier for the electromagnetic force. EM radiation carries energy and momentum that may be imparted to matter with which it interacts
"They found that rather than simply ricocheting off one another, some of the electrons and dark matter particles could fuse together, transforming into a single, supersymmetric or extra-dimensional version of the electron. This particle would be heavy, and much of the electron's kinetic energy would be dumped into making the new particle. As a result, the particle would be almost standing still."