What is the price of 1 gram antimatter? Right now, antimatter - with a price tag of about $62.5 trillion per gram - is the most expensive substance on the Earth. What does antimatter explosion look like? Not all of the antimatter+normal matter mass gets converted into energy. Huge explosion, a few hundred megatons . A gram of antimatter could produce an explosion the size of a nuclear bomb.... Making 1 gram of antimatter would require approximately 25 million billion kilowatt-hours of energy and cost over a million billion dollars. 39 view If you're carrying a 1 gram of antimatter about the size of a raisin and dropped it on the ground, it would create an explosion greater than both the Hiroshima and Nagasaki nuclear explosion combined. Antimatter is not used only for military or war purposes, beyond that, there are several uses of antimatter Using the convention that 1 kiloton TNT equivalent = 4.184×10 12 joules (or one trillion calories of energy), one half gram of antimatter reacting with one half gram of ordinary matter (one gram total) results in 21.5 kilotons-equivalent of energy (just over 40% more than the atomic bomb dropped on Hiroshima in 1945) Well, in theory if you mix one gram of matter with one gram of antimatter you should get 1.8×10 14 joules of energy or about 43 kilotons. Why 1.8×10 14 joules? Surely you remember Einstein's famous E = Mc2. c is the speed of light which is 299,792,458 meters per second. Squared it is 89,875,517,900,000,000 or about 9.0×10 16
If 1 gram antimatter interact with 1 gram of normal matter in controlled manner then 2 gram mass completely converted into energy. And the amount of energy it produce is -> Energy in ergs=2gm× (30,000,000,000.0cm/sec)2 = 1800,000,000,000,000,000,000 ergs of energy. For instance, this is equal to the energy emitted by a 100 watt bulb for Antimatter is a key material used for generating massive amounts of energy and powerful weapons. 1 Description 2 Crafting 3 Used In 4 Gallery By combining eight cells of 125mg of antimatter, a cell of 1 gram of antimatter can be created. Larger antimatter cells can then be combined withNuclear Explosivesto createAntimatter Explosives. 1 gram of antimatter can also be deconstructed back into 8. Anti Matter Energy Calculator. Converts antimatter to energy in joules. Antimatter is just like normal matter, except that some of its properties are opposite that of normal matter. For instance, the antimatter equivalent to the electron is called the positron. The positron has the same mass as an electron but with a positive charge, rather.
.5 trillion per gram - is the most expensive substance on the Earth. What is dark matter capable of? Dark matter can refer to any substance which interacts predominantly via gravity with visible matter (e.g., stars and planets) Making 1 gram of antimatter would require approximately 25 million billion kilowatt-hours of energy and cost over a million billion dollars. Illustrations by Sandbox Studio, Chicago with Ana Kova 4. There is such a thing as an antimatter trap
To produce just a single gram of antimatter at that rate of production, it would take CERN roughly 100 billion years to complete. Production is only the first problem though, storing it is perhaps an even larger problem since antimatter annihilates matter instantly The complete conversion of 1 kg of matter into pure energy would yield the theoretical maximum (E = mc 2) of 89.8 petajoules, which is equivalent to 21.5 megatons of TNT. No such method of total conversion as combining 500 grams of matter with 500 grams of antimatter has yet been achieved Even if the processes involved get 100% efficient, at the present rate it would take CERN 100 billion years to produce 1 gram of antihydrogen. This whole process of manufacturing a mere 1 gram of antihydrogen would cost CERN an estimated $62.5 trillion thus rendering antihydrogen (and hence antimatter) the most expensive thing in the world and.
Using the convention that 1 kiloton TNT equivalent = 4.184×10 12 joules (or one trillion calories of energy), one gram of antimatter reacting with one gram of ordinary matter results in 42.96 kilotons-equivalent of energy (though there is considerable loss by production of neutrinos). Acquiring and storing antimatter The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLL5There is a math error at 2:35 in this video. It would ac.. . One ounce of antimatter equates to 1.22 megatons, which is comparable to a single modern day H-bomb. In order to help prevent such mistakes from occurring in the future, I present the anti-matter caculator Moreover, 1 gram of antimatter, about 1/25th of an ounce, would equal 23 space shuttle fuel tanks of energy. Thus positron energy conversion, as he called it, would be a revolutionary energy source of interest to those who wage war. It almost defies belief, the amount of explosive force available in a speck of antimatter -- even a speck.
The energy required to make antimatter is about one billion times more than is contained in its mass. Using the famous formula E = mc2, we find that 1 gram of antimatter contains: 0.001 kg x (300,000,000 m/s)2 = 90,000 GJ = 25 million kWh. To achieve one single gram of antimatter, we need 25 million billion kWh, and that is considering the low. How high energy? Remember that the speed of light in a vacuum (the 'c' in this equation) is 3.00*10 8 m/s. c 2 is 9.00*10 16 m 2 /s 2.Converting 1 gram of matter to energy therefore produces 9.00*10 13 kg*m 2 /s 2 = 9.00*10 13 N*m ~= 90 terajoules. Little Boy, the nuclear weapon used against Hiroshima in 1945, was built from 64 kilograms of uranium and released only 63 terajoules
you wouldnt know because it doesnt matter you snifft in a whole lot of nothing because it wasnt there to be any matter other than regular air so it was oposit of any matter because it wouldnt even matter . unless it was a matter that tore up a.. The cost of producing 1 gram of Antimatter is $62500,000,000,000. The scientist has made Anti- Hydrogen but it is impossible to hold Anti-Hydrogen in a holder made of normal matter so they are kept by powerful magnetic levitation in a laboratory An antimatter weapon is a theoretically possible device using antimatter as a power source, a propelant, or an explosive for a weapon. Antimatter weapons cannot yet be produced due to the current cost of production of antimatter (estimated at 63 t..
There would be no blast radius. The annihilation of matter and antimatter does not create the sorts of energy that cause a blast radius. Just because energy is released, it does not mean that there is a shock wave nor a thermal blast associated. Right now, antimatter - with a price tag of about $62.5 trillion per gram - is the most expensive substance on the Earth. When groups of people are asked to name the most expensive substance, the variety of answers is hilarious. Often, the responses are droll ones such as love, cocaine, cash money, computer ink, or even sex
To produce just a single gram of antimatter at that rate of production, it would take CERN almost 100 billion years to complete. The antimatter is incredibly rare, expensive, and difficult to produce. Antimatter is produced naturally in Earth's outer atmosphere when high-energy cosmic rays impact it, but the amount produced is tiny I'm 100% sure you already know the equation: [math]E = m.c^2[/math] Mass is in kilograms - 'c' is the speed of light in meters per second. Result is in Joules. In order to annihilate 1g of antimatter - you need another 1g of matter - so 2 grams. S.. No. That is like asking which is heavier, 1kg of lead or 1kg of feathers. 1g of antimatter anything has exactly the same amount of energy as mass as 1g of it's matter version. It undergoes the same chemical reactions and the same nuclear reactions..
How much bang? Well, in theory if you mix one gram of matter with one gram of antimatter you should get 1.8×10 14 joules of energy or about 43 kilotons. Why 1.8×10 14 joules? Surely you remember Einstein's famous E = Mc 2 16. M is mass in kilograms and E is energy in joules. So 0.002 kilograms (2 grams) times 9.0×10 16 equals 1.8×10 14. The reaction of 1 kg of antimatter with 1 kg of matter would produce 1.8 × 10 17 J (180 petajoules) of energy (by the mass-energy equivalence formula, E=mc 2), or the rough equivalent of 43 megatons of TNT - slightly less than the yield of the 27,000 kg Tsar Bomba, the largest thermonuclear weapon ever detonated
Take Dan Brown's hypothetical 1 gram of antimatter, he continued. With present CERN technology, we would be able to produce about 10 nanograms of antimatter per year, at a cost of about $10-20. The problem lies in the efficiency and cost of antimatter production and storage. Making 1 gram of antimatter would require approximately 25 million billion kilowatt-hours of energy and cost over a million billion dollars. 4. There is such a thing as an antimatter trap 1 gram of antimatter (mainly antiprotons) will annihilate with roughly 2 grams of air (half protons), which is about 1.5 liters of air. Neutrons in air are very unlikely to be annihilated. [Edit] The positrons (about 0.05% of antimatter) would produce two 511 KeV photons each Making 1 gram of antimatter would require approximately 25 million billion kilowatt-hours of energy and cost over a million billion dollars. 4. There is such a thing as an antimatter trap. To study antimatter, you need to prevent it from annihilating with matter. Scientists have created ways to do just that
A gram of antimatter could produce an explosion the size of a nuclear bomb. Scientists create antimatter to study in experiments, but the amount produced is minute. All the antiprotons created at Fermilab's Tevatron particle accelerator (now inactive) add up to only 15 nanograms, and CERN's so far add up to about 1 nanogram One gram of matter-antimatter reaction is about 21.5 kilotons of TNT which is about the same as the Nagasaki atomic bomb. (0.5 grams of antimatter with 0.5 grams of matter). 20 grams of antimatter and 20 grams of matter is about 1 megaton Moreover, 1 gram of antimatter, about 1/25th of an ounce, would equal 23 space shuttle fuel tanks of energy. Thus positron energy conversion, as he called it, would be a revolutionary energy. If 1kg of antimatter came into contact with 1kg of matter, the resulting explosion would be the equivalent of 43 megatons of TNT - about 3,000 times more powerful than the bomb that exploded. Moreover, 1 gram of antimatter, about 1/25th of an ounce, would equal 23 space shuttle fuel tanks of energy. It almost defies belief, the amount of explosive force available in a speck of antimatter - even a speck that is too small to see. For example: One millionth of a gram of positrons contain as much energy as 83 pounds of TNT, according.
$0.10 per kW-hr into Eq. (4) yields an energy cost of $6,410 trillion per gram of antiprotons. Obviously, the cost of producing large quantities of antimatter (i.e., gram-scale or greater) with current facilities is excessively high! However, studies have shown that the efficiency o The matter of antimatter. by Rebecca Phillips '76, '81 DVM. Deep in the bowels of a large brick building on the WSU campus is a laboratory guarded by red flashing lights and warning signs. A tiny window in the door offers glimpses of stainless steel machinery while a low pulsating hum emanates through thick concrete walls Moreover, 1 gram of antimatter, about 1/25th of an ounce, would equal 23 space shuttle fuel tanks of energy. Thus positron energy conversion, as he called it, would be a revolutionary energy source of interest to those who wage war
That means that if a gram of matter (0.001 kg) would come into contact with a gram of antimatter (0.001 kg), the amount of energy that could be released would be E = (0.002)*(9*10 16) = 1.8*10 14 joules or newton-meters. This is about 40 times greater than the energy of the first atomic bomb. Rocket propulsio In many fictitious tales, antimatter is weaponized by mankind. This is especially effective considering that even a single gram of antimatter reacting with a gram of ordinary matter would result in a 43 kilotons release of energy, which would easily destroy a town (approximately 3 times the potency of the bomb dropped on Hiroshima). However. Imagine a bunch of loonies that have tiny metal balls with increasingly large fractions of a gram of antimatter in them. Leave the ball hidden somewhere till the timer runs out and the sphere loses power and it blows. Bomb squad gets to it, they don't know its antimatter and turn of power to the device, it explodes 1. CERN produces 3e7 antiprotons per AD cycle or about 1e15 per year 2. This is about 1e15*1.67e-27kg = 1.67 nanogram per year 3. 1 gram of antiprotons has an energy (E=mc^2) of 9e13 Joule 4. The efficiency of the antiproton production process is 1e-9, so you need a billion times more energy: 9e22 Joule 5
Cost of Antimatter Antimatter is the costliest material to make in this world. In 2006, Gernald Smith estimated 250 million dollars could produce 10 milligrams of positrons which is equivalent to $62.5 trillion per gram of antihydrogen. According to CERN, it has cost a few hundred million Swiss Francs to produce about 1 billionth of a gram According to CERN, the European physics laboratory, a teraelectronvolt (TeV) is equivalent to the energy of a single mosquito flying at 1 mph (1.6 km/h). And 6.3 PeV is 6,300 TeV. And 6.3 PeV is.
The most common form of antimatter scientists work with, is the positive counterpart to negative electrons - positrons. As an example, Professor Close wrote as little as 50-millionths of a gram of positions are enough to produce a destructive blast equal to 1,814kg (4,000lbs) of TNT. The physicist wrote: Suppose we want grams of antimatter In the movie, we switch on the LHC and it produces a gram of antimatter in a few minutes, Landua says. That's not possible for two reasons: It would need much more energy to do it--with present. In fact, a single gram of antimatter can yield the equivalent of an atomic bomb. So, should we be concerned with malevolent people learning the art of antimatter creation? Not currently, no. Even world-renown labs, like CERN and Fermilabs, have generated a combined 15 nanograms of antimatter. Ultimately, this adds up to 0.0000015% of a single gram Scientists use antimatter for research. In terms of production costs, the most expensive substance in the world is antimatter. The cost of creating this material has been estimated at about $1,771 trillion US Dollars (USD) per ounce ($62.5 trillion USD per gram), although some authorities think it may eventually come down to a mere $141.75. 2 grams (one of matter and one of antimatter) are .002kg, and the speed of light is 299,792,458 m/s, so substituting into E=mc 2, you get E=179751035747363.5 J (or roughly 1.8x10 14 J if that is more helpful). That's around 1.5 times the amount of energy released by the atomic bomb dropped on Hiroshima
According to Wikipedia [wikipedia.org] (look at Hiroshima @15kT, and compare to the note on antimatter (1kg=42 MT)), 1 gram of antimatter should be more than sufficient to level a city block. If you got a medium-to-high-rise load. Re: (Score: 2) by hawkfish I n Dan Brown's novel Angels and Demons physicists at CERN use the LHC, the Large Hadron Collider, to produce 1/4 gram of antimatter. The material was stolen in order to destroy the Vatican. It is true that if 1/4 gram of antimatter were to completely annihilate with 1/4 gram of matter the amount of energy produced would equal that of the bomb that destroyed Hiroshima Or if I want to be more flashy, I convert 1 gram of cloud in the sky into antimatter and produce an explosion with a yield of 43 kilotons. Or best of all, I convert microscopic amounts of air molecules in the sky in a specific pattern, forming words in the sky saying Kneel before your god Producing 1 gram. of antimatter would take five billion years, according to the current state of the art. One small black hole, fed with a truckload of sand or water could cover the annual energy consumption of the whole world. Typical depiction of a black hole. Real photographs of the mysterious behemoths do not exis
Studying antimatter, however, could help scientists understand the origins and makeup of the universe. And particles of antimatter already play an important part in the machines used to scan the brain to monitor mental activity. At that rate, making 1 gram of the stuff would take many billions of years—longer than the age of the universe. • All the antimatter ever produced get annihilated by contact with matter could only give enough energy to power an ordinary lamp for a few minutes. 24. Antimatter Detonation • One gram of antimatter reacting with its ordinary matter counterpart gives 1.8e^14 J. • Where 1 kiloton TNT equivalent = 4.184e^12 joules Making 1 gram of antimatter would require approximately 25 million billion kilowatt-hours of energy and cost over a million billion dollars. #15 WhiningKhan , Jul 12, 2021 Lightman and Davros like this Ok according to the infamous Wikipedia a kilogram (1000 grams)of matter will convert into 21.48076431 Megatons of TNT. Divide this by 1000 and you get 0.02148076431 Megatons. Convert the units gives you 21 Kilotons of energy for ONE gram of matter (for argument sake we'll call it 1/2 gram of anti-matter reacting with 1/2 gram of matter)