Antimatter is extremely rare and expensive to produce, estimated to cost trillions of dollars per gram. However, it is difficult to assign a specific monetary value to antimatter as it is not commercially available for sale.
Anti matter does NOT exist. As soon as it is in contact with matter which is anything ; solid , liquid , gas, they are both annihilated. You can think of antimatter as protons with a negative charge and electrons with as positive charge. So Proton^+ Proton^- = Annihilation (??? Energy) Electron ^- + electron^+(positron) = Annihilation (???? Energy).
The antimatter equivalent of a proton is an antiproton. It has the same mass as a proton but opposite charge.
We have created 20 nanograms of antimatter. To get you on track, one nanogram is a billionth of a gram. Antimatter is very hard to make, so far only a very small quantity has ever been produced; much less than a milligram has ever been produced and yes there is a way to store it. It's called the penning trap. The penning trap is a container in extreme vacuum and magnetic fields. This is to prevent the antimatter from touching air, since air is made of matter.
Yes, antimatter has been observed in laboratory experiments and high-energy particle collisions. The existence of antimatter is supported by the theoretical framework of quantum field theory, which predicts the existence of antimatter as a counterpart to ordinary matter. Additionally, antimatter has practical applications in medical imaging and research.
$25 billion for a gram of positrons. $67.5 trillion for anti-hydrogen
Antimatter is extremely rare and expensive to produce, estimated to cost trillions of dollars per gram. However, it is difficult to assign a specific monetary value to antimatter as it is not commercially available for sale.
Antimatter is an extremely rare and expensive substance to produce. Estimates suggest it can cost billions of dollars per gram to produce antimatter. Its high cost is due to the complex processes required to create and store it.
Anti matter does NOT exist. As soon as it is in contact with matter which is anything ; solid , liquid , gas, they are both annihilated. You can think of antimatter as protons with a negative charge and electrons with as positive charge. So Proton^+ Proton^- = Annihilation (??? Energy) Electron ^- + electron^+(positron) = Annihilation (???? Energy).
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As much as 50% of energy produced in reactions between nucleons and antinucleons is carried away by neutrinos in these applications. It is theoretically possible to retain as much as 100% of the energy in an Antimatter reaction.
Not much; as soon as the antimatter meets with normal matter, they annihilate (destroy) each other. That doesn't leave you much time to build anything; a few small atoms have been built, though.
They can DEFINITELY breathe antimatter
There are no definite answers with our current level of understanding of antimatter at this point but scientists believe that this is the result of an imbalance in the production of matter and antimatter particles in the early universe. Another explanation for this phenomenon is that Antimatter may exist in relatively large amounts in far away galaxies due to inflation in the primordial time of the universe
Antimatter - band - was created in 1998.
Antimatter - album - was created in 1993.
It may have to do with the way the universe was created. Certainly if there was a lot of antimatter created, much of it may well have come in contact with matter through the billions of years the universe has existed. That would have resulted in the conversion of that antimatter (along with a like amount of matter) into energy. There may not have been much antimatter around to begin with, too. But, since the amount of visible matter represents less matter than has been calculated to exist in the uinverse, it may be that there is a good bit of antimatter out there somewhere. Not likely, but possible.