How do you calculate antimatter energy?
The reaction of 1 kg of antimatter with 1 kg of matter would produce 1.8×1017 J (180 petajoules) of energy (by the mass–energy equivalence formula, E=mc2), 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.
What is the energy of antimatter?
When antimatter comes into contact with matter it annihilates: the mass of the particle and its antiparticle are converted into pure energy. Unfortunately, however, antimatter cannot be used as an energy source.
How much energy is in a gram of antimatter?
Annihilation requires and converts exactly equal masses of antimatter and matter by the collision which releases the entire mass-energy of both, which for 1 gram is ~9×1013 joules.
Can antimatter destroy energy?
What makes antimatter unique is that when antimatter comes in contact with its regular matter counterpart, they mutually destroy each other and all of their mass is converted to energy.
What can 1 gram of antimatter do?
Antimatter-matter annihilations have the potential to release a huge amount of energy. 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.
How much antimatter would it take to destroy the earth?
How much antimatter would our villain need to annihilate with “normal” matter in order to release the amounts of energy required for the destruction of Earth? Lots! Approximately 2.5 trillion tons of antimatter.
Does antimatter create energy?
Antimatter-matter annihilations have the potential to release a huge amount of energy. A gram of antimatter could produce an explosion the size of a nuclear bomb. However, humans have produced only a minuscule amount of antimatter.
Is antimatter the most efficient energy source?
Antimatter is the most efficient source of energy in the entire universe, when antimatter meets its equivalent matter; they annihilate each other resulting in an explosion that converts all the mass of the particle and its antiparticle into pure energy.
What can you do with 1 gram of antimatter?
A gram of antimatter could produce an explosion the size of a nuclear bomb. However, humans have produced only a minuscule amount of antimatter. All of the antiprotons created at Fermilab’s Tevatron particle accelerator add up to only 15 nanograms. Those made at CERN amount to about 1 nanogram.
How is the energy equation used in fluid mechanics?
Fluid Mechanics Energy Equation & Its Applications h T=q=Energy supplied by per unit weight (m) h X=w=work done by per unit weight (m) h P=Total friction losses per unit weight (m) Representation of Energy Changes in a Fluid System (HGL and EGL) It is often convenient to plot mechanical energy graphically using heights.
How is the Bernoulli equation used in fluid mechanics?
Fluid Mechanics Energy Equation & Its Applications Bernoulli Equation Bernoulli equation is one of the most useful equations in fluid mechanics and hydraulics. And it’s a statement of the principle of conservation of energy along a stream line. Bernoulli Equation can be written as following: P ρg + v 6 2g +z=H X=constant
What happens when a particle becomes an antimatter?
The particles cease to exist, but the field continues on for eternity. This transition generates a pair of photons, which are bumps on the normally flat electromagnetic field. Every matter particle has an antimatter antiparticle. Two major discoveries helped physicists to establish this fundamental principle:
https://www.youtube.com/watch?v=20xOMDL6pyc