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the matter interacts with other matter because it follows the property of diffusion which is the mixing of 2 types of matters ,it depends on the temperature of the matter and the pressure that how much time will it take to diffuse
Mainly that dark matter interacts with dark matter and with normal matter via the gravitational force; and that it DOES NOT interact with normal matter via any other known force. Or, if there is any interaction, it does so to such a small extent that it hasn't been possible to detect this so far.
the answer is chemistry
Dark matter is able to move, but it interacts very weakly with other matter, which makes it difficult to detect. It is thought to move under the influence of gravity and can form structures like galaxies and galaxy clusters. However, its exact properties and behavior are still not fully understood.
Matter is present on all other planets. Matter is anything that has mass.
All matter has chemical properties, and they describe how that matter interacts with other forms of matter. It is different from a physical property, which is simply observations of matter using the senses.
Another word for matter is, very unscientifically, "stuff." All the stuff in the universe is made of this matter which is made from chemicals. What type of "stuff" and how it behaves is determined by chemical reactions between elements. So chemists really study how matter forms and interacts with other matter.
the matter interacts with other matter because it follows the property of diffusion which is the mixing of 2 types of matters ,it depends on the temperature of the matter and the pressure that how much time will it take to diffuse
Mainly that dark matter interacts with dark matter and with normal matter via the gravitational force; and that it DOES NOT interact with normal matter via any other known force. Or, if there is any interaction, it does so to such a small extent that it hasn't been possible to detect this so far.
Better syntax would help me understand your question better and therefore give a better answer.Dark matter is theorized to exist throughout the universe. Nothing really "holds" it other than its gravitational attraction to all other mass.In another sense, nothing CAN hold dark matter, because the only way it interacts with normal matter is through the gravitational force. You can't just put it in a bottle and expect it to stay there, because it doesn't interact (or interacts only very, very weakly) with normal matter, so it will slip right through.
Mainly that dark matter interacts with dark matter and with normal matter via the gravitational force; and that it DOES NOT interact with normal matter via any other known force. Or, if there is any interaction, it does so to such a small extent that it hasn't been possible to detect this so far.
the answer is chemistry
No. Antimatter and dark matter are two entirely different things. Dark matter is a form of matter (for lack of a better word) that only interacts with ordinary matter via gravity. Antimatter is matter consisting of antiparticles. For every normal particle type there is an antiparticle of the same mass but opposite charge. If a particle meets its antiparticle the two annihilate each other and turn into energy.
No.We know very little about dark matter; there are some ideas, but, as yet, nobody knows for sure what it is. What we doknow about dark matter, however, is that it interacts very weakly with other matter. Dark matter and "normal" matter are intermixed throughout space; if there were some catastrophic annihilation interaction between the two, we'd see the electromagnetic signature of that in observations of galaxies and galaxy clusters.
"Dark matter" interacts with baryonic matter -- ie, the stuff we understand -- via gravity but not in any other significant way. Not via the electromagnetic force, nor via the strong force, possibly not even via the weak force. What this stuff happens to be is still being debated. Dark matter, however, can NOT be simply energy in our cosmos. If it were, it would push space apart -- which is what dark energy is doing. Dark matter, on the other hand, is doing the exact opposite -- it is pulling space (and the matter within it) into it. Thus, dark matter is SOME kind of matter (or mass, which is the same thing) which, at present, we don't fully understand yet.
Dark matter is able to move, but it interacts very weakly with other matter, which makes it difficult to detect. It is thought to move under the influence of gravity and can form structures like galaxies and galaxy clusters. However, its exact properties and behavior are still not fully understood.
because its the gravity of the earth that appears generally