We see no evidence in careful observations for that, which leads most scientists to believe that whatever the dark matter is, it is not antimatter.Researchers discovered that gravitational waves might provide the key to understanding the reason the unthinkable colossal event called the Big Bang that seeded the universe, produced more matter than antimatter.Īsymmetric Distribution of Matter Vs Antimatter If the dark matter out there were antimatter, we would expect it to annihilate with matter whenever it meets up with it, releasing bursts of energy primarily in the form of light. As someone has put it, “not only are we not the center of the Universe, we aren’t even made of the right stuff!” Why Dark Matter is not Anti Matter? PS: If the about statistics are true, then the matter that we are made of (baryonic matter) is but a small impurity compared to the dominant matter in the universe (non-baryonic matter). Or in short, we are unsure about what’s there in 95% of the universe! Matter vs antimatter plus#Thus, dark matter is estimated to constitute 84.5% of the total matter in the universe, while dark energy plus dark matter constitute 95.1% of the total content of the universe. Ordinary Matter is just 4.9% of the universeĪccording to the Planck mission team, and based on the standard model of cosmology, the total mass–energy of the known universe contains 4.9% ordinary matter, 26.8% dark matter and 68.3% dark energy. Dark matter is known as non-baryonic matter. Ordinary matter and anti matter are known as baryonic matter. The action of negative matter under other three forces is not hypothesized yet. But matter and negative matter will repel each other under gravity. PS: Hope you remember that matter and anti-matter will attract each other resulting in annihilation. Yet it will interact just like any other matter in every other way. It will in essence have a negative gravitational charge and repel normal matter. Negative matter is a hypothetical type of matter which if it exist will have negative mass and negative energy. But anti matter reacts just opposite to other three forces than the reaction produced by normal matter. Scientists assume that antimatter behaves as normal matter under gravity, though the truth is that they have never seen a large enough mass of it to know for certain it behaves the same. Anti matter behaves like normal matter under gravity but opposite with respect to other three forces! PS: When an electron meets an antielectron, the two annihilate and produce a burst of light having the energy corresponding to the masses of the two particles. The electron and the antielectron have exactly the same masses, but they have exactly opposite electrical charges. So anti matter has some properties opposite with respect to the usual matter. For example, the electron has as its antiparticle the antielectron. Dark matter does not interact via either the strong atomic force or electromagnetism hence dark matter cannot be seen and is hard to detect. Dark matter reacts only to gravity and weak atomic force!ĭark matter only interacts by way of gravity and the weak atomic force. The outer parts of our own spiral galaxy, the Milky Way, are rotating much too fast to be consistent with the amount of matter that we can detect in fact the data indicates that there must be about 10 times as much matter as we can see distributed in some diffuse halo of our galaxy to account for its rotation. Why scientists think there is dark matter or energy?īecause scientists see its gravitational influence on the rest of the Universe. As one simple example of the evidence for dark matter, the velocity of rotation for spiral galaxies depends on the amount of mass contained in them. Whether dark energy is a type of dynamical fluid, heretofore unknown to physics, or whether it is a property of the vacuum of empty space, or whether it is some modification to general relativity is not yet known. This “stuff” has been dubbed dark energy, but to give it a name is not to understand it. Something, not like matter and not like ordinary energy, is pushing the galaxies apart. More about Dark Energy: Supernovae observations showed that the expansion of the Universe, rather than slowing, is accelerating. And dark matter corresponds to unknown matter whose properties are not clear to scientists. So dark energy corresponds to an unknown energy. The term ‘dark’ is used to denote the unknown. Now let’s see what each of these terms signify. You by now know that matter and energy are inter convertible so there are Dark Energy, Anti Energy and Negative Energy too. A few examples include Dark Matter, Anti Matter and Negative Matter. But apart from the ‘normal’ matter, there are different other forms of hypothesized matter. Matter is anything that has mass and takes space.
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