0
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).
What else can I help you with?
How much does one gram of antimatter?
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).
How much is anti matter worth?
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.
How much does antimatter cost?
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.
How much antimatter have humans ever made?
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.
What is made when matter and antimatter collide?
They annihilate each other, releasing a relatively large quantity of energy, which can be calculated using the formula e=mc2, where e is the released energy in joules, m is the mass of the particles in kilograms, and c is the speed of light in metres per second
How much does one gram of antimatter?
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).
How much is anti matter?
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.
How much is anti matter worth?
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.
How much does antimatter cost?
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.
How much douse antimatter cost?
$25 billion for a gram of positrons. $67.5 trillion for anti-hydrogen
What is the efficiency of antimatter?
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.
How much antimatter have humans ever made?
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.
What releases twice as much energy than carbohydrates?
Gram for gram, lipids release twice as much energy as carbohydrates do.
What is origin of antimatter?
The origin of antimatter on earth today is the Hadron-collider at CERN in Switzerland. There they have a large ring (several kilometers in diameter) that they use to study and discover small, new particles to learn more about how our Universe was created and what happened during the Big Bang. At CERN, they send protons in each direction in the ring with very high speed. They then collide, and then some antimatter is produced from the destroyed protons. The amount of antimatter produced, however, is a very small amount, and it will take millions of years before we get even 1 gram of antimatter! However, in the early Universe, very shortly after the Big Bang, there were extremely high amounts of antimatter. At that time, there were equally amounts of matter and antimatter (roughly 50% of each). There was, however, a small imbalance between them. For every 100 million antiparticles there were, there were 101 million particles. As you probably know, matter and antimatter have opposite charges, spin, color charges etc. If they touch each other, they get annihilated in a shower of pure energy. Albert Einstein figured out that there was much energy in matter, relating to his well known formula E= mc2. That's very high amounts of energy! If you had transformed 1 gram of matter into energy, you would have enough energy to power your house for 1 year. We're talking about lots of energy here! The superpowers used Einstein's formula to create fission bombs (atom bombs), and fusion bombs (hydrogen bombs). These converted only a small amount of matter into energy. If there had existed an antimatter bomb, all of the antimatter would have reacted to matter, thus converting all of the antimatter and the matter that reacted with it to energy. While an atom bomb only has an efficiency of 0,01%, a hydrogen bomb would have an efficiency of 1%. An antimatter bomb would have an efficiency of 100%!
How much energy provided in gram of carbohydrates?
There are approximatley 4Kcal (calories) of energy per gram of carbohydrates.. This is the same in proteins, but 9Kcal of energy are produced in a gram of fat Hope that answers your question :)
What could antimatter be used for?
In theory, antimatter could be used as an extremely concentrated form of fuel, to run power plants, to propel rockets, or anything else that requires fuel. However, it is extremely difficult to store, requiring special magnetic containment since any contact with matter causes a big explosion. Unless some efficient solution is found for the storage problem, I doubt that antimatter will ever be used for much other than research into subatomic physics.
How much energy is in one gram of cholesterol?
One gram of cholesterol contains about 8.8 kilocalories of energy.
