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).
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.
If a gram of antimatter meets a kilogram of matter, they would annihilate each other, converting their mass into energy according to Einstein's famous equation, E=mc^2. The resulting energy release would be equivalent to the full mass of both the antimatter and matter being converted into energy.
Antimatter is extremely expensive to create and store, costing billions of dollars for even tiny amounts. The cost comes from the high energy requirements of its production and the complex technology needed to contain 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).
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.
$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.
If a gram of antimatter meets a kilogram of matter, they would annihilate each other, converting their mass into energy according to Einstein's famous equation, E=mc^2. The resulting energy release would be equivalent to the full mass of both the antimatter and matter being converted into energy.
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.
Most of the antimatter being produced on earth is produced in one of the particle accelerators. They make almost none, and it costs 300 billion per milligram. one gram can set off a hiroshima sized blast.
One gram is equal to one gram.
Antimatter is extremely expensive to create and store, costing billions of dollars for even tiny amounts. The cost comes from the high energy requirements of its production and the complex technology needed to contain 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).
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.
one gram
It weighs one gram. One gram of anything weighs one gram.
One gram or 0.00220462262 pounds or 0.001 kilograms