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So far we aren't sure. In general, dark matter is a form of matter we cannot directly observe; its existence can only be inferred through gravitational interaction with baryonic "light" matter.
Basically, Dark matter is stuff we can not see or detect but we think must be there. Because we can not see it capture it or even detect it, we do not know what is or consists of. However, we know enough about the universe to know that dark matter must consist of the same fine matter that atoms are made of.
Dark Matter is the name scientists give to the "stuff" that we believe must be part of the known universe. Scientists can however observe and measure the affects of dark matter.
Hear is how it works: We know that all objects made of matter generate gravity, like the sun the earth and the moon. Even a single person generates a small amount of gravity. The amount of gravity a planet or star produces is directly related to its mass, which is another way of saying or how much matter it is made of. The amount of gravity an object produces causes a very predictable orbit and speed. Sir Isac Newton gave us the exact mathematical formula for calculating how much mass an object in space has by measuring is orbit and speed.
Here is the discovery: When scientists look through telescopes at distant galaxies as well as looking at our own galaxy they now have the ability to mostly add up the stars planets dust and the stuff we call normal matter. We should then be able to return to our telescopes and measure normal speeds at which the galaxies are spinning. What scientists discovered is that all the galaxies are spinning much much faster than expected. And they are not flying apart. Something is generating the extra gravity that is holding the galaxies together. For now because we we cannot see it, and light does not reflect off it, nor can we catch it or touch it, we call it DARK MATTER! Scientists believe it is mixed in with our own galaxy, and it makes up 95% of the known matter in the universe.
Black Holes are another example of this type of thinking. We can not see or observe black holes because light can not escape them. One of the only reasons we know that they are there is because large stars spin around very powerful centers of enormous gravity only to be sucked in never to escape. We can not see black holes, but we can identify that a very large amount of mass is there by its affects on other objects.
Dark matter helps explain the large-scale structures of the Universe such as superclusters and voids and why they exist.
Dark matter is necessary for many mathematical equations to balance. If there is no such thing as dark matter, then many scientific theories do not make sense. Some scientists believe that dark matter exists everywhere, though it is not visible it is coexisting in dimensions all around us that we can not experience. In these discussions, there is a narrow line between Science and Belief.
Answer2.
"Dark Matter" is a missing actor in a Gravitational Play. Maybe we are observing an Electromagnetic Play, an Homopolar Motor!
Maybe, nature uses Electromagnetism not Gravity to control the galactic stars motions.
The energy E=mcV is the solution for the "Missing Matter " problem,. mcV is the energy providing the speed of stars in the galaxy.. The velocity is V = E/mc. This derives from the Electric Model of the galaxy, a homopolar Motor, , where the galaxy rotates as current comes in on the edge and Jets out of the center. Charged stars rotating create a B magnetic field perpendicular to the galaxy. In effect there is a mass spectrometer for stars.
The equation is the Lorentz force F=qVxB = mv2/r giving velocity v= qrB/m = qruI/rm =quI/m=qzI/mc=E/mc!
The velocity is independent of the radius r and dependent on the current I and the ratio q/m of the stars.
The vector energy E=mcV is the "Dark Matter" of the Missing Matter in the galaxies and the "Dark Energy" of Gravitational Theory.
What else can I help you with?
Is dark matter the force?
Dark matter and The Force are not the same thing. The Force is a fictional power that connects all things. Dark matter is a real-world, theoretical matter that figures into physics and mathematics.
What's the dark matter in the universe?
Dark matter is matter of an unknown type. It is known to exist, due to its gravitational influence, but it is not known what it is made of. There is at least 5 times as much dark matter than "normal" matter.
Which is thought to be more prevalent in the universe dark matter or dark energy?
Dark energy. The current estimates for the distribution of mass/energy in the Universe are approximately: 68% dark energy 27% dark matter 5% baryonic (i.e. "normal") matter
Where is located Dark Matter?
All over the dark expanse of space.
What is the ratio of dark matter to ordinary matter in a universe?
We're not certain that "dark matter" even exists, or what the proportions of "normal" to "dark" matter is. I have read some articles saying that the ratio might be as much as 20-1; 20 parts dark matter to one part normal matter, but these are predicated (I believe) solely on rough calculations based on the perceived mass of the galaxy and its apparent rotational speed.There appears to be a great deal of speculation and estimation in these calculations.One important trait of a scientist is to NOT GUESS about things that we don't know, and to admit the boundary between the known, the believed, and the unknown. Even if the current hypotheses about dark matter and dark energy turn out to have some basis in reality, we will certainly be surprised by the truth when we finally learn it.
What is the 7th and eighth states of matter?
the 7th state of matter is dark matter
What state of matter isn't found on earth?
dark.
What state of matter is most commonly found in the universe?
If we are talking about normal matter, as opposed to the dark matter, that would be plasma.
What is the state of most of the matter is the universe?
The most common type of energy/mass in the Universe is in the form of dark energy, followed by dark matter. Only about 4% of the Universe is in the form of "normal" (baryonic) matter. If it is specifically to this matter you refer: the most common state of matter is plasma, found in stars.
What The most common state of matter in the universe is?
Plasma. That's ignoring "dark matter", because we don't yet know what that is.
What is a dark matter microscope used for?
A dark matter microscope is used to indirectly detect and study dark matter by analyzing the impact it has on the distribution of visible matter in space. By observing the gravitational effects of dark matter on visible matter, scientists can infer the presence and properties of dark matter particles.
Where is the largest dark matter in the universe?
Dark matter is everywhere, there really is no place that has the most dark matter.
Is dark matter a subatomic particle?
Dark matter is an unknowm form of matter.
Name the fourth and fifth states of matter?
The fourth state of matter is plasma, which is a highly energized state in which atoms are stripped of their electrons. The fifth state of matter is Bose-Einstein condensate, which occurs at very low temperatures close to absolute zero, causing atoms to clump together and behave as a single quantum entity.
What is the scientific term for the opposite of dark matter?
The opposite of dark matter is visible matter.
How strong is dark matter?
Dark matter's strength is proportional to it's mass. This means that more dark matter in one spot is stronger then a little bit of dark matter in that same spot.
What state of matter is potassium permanganete?
Potassium permanganate is a solid state of matter, as it exists as a dark purple crystalline solid at room temperature. When dissolved in water, it forms a deep purple solution.
