Can we convert 100 mass into energy?

Suppose you are given a mass of 1 kg. Einstein’s theory of relativity says that all the mass can be converted into energy as per the equation E=mc2.

Can mass be completely converted into energy?

We can transform mass into pure energy, such as through nuclear fission, nuclear fusion, or matter-antimatter annihilation. We can create particles (and antiparticles) out of nothing more than pure energy.

Can any matter be converted into energy?

Matter can be converted into energy by annihilation, fission, and fusion. Annihilation occurs when an electron and a positron meet. They annihilate each other and produce two γ ray photons, each with an energy of 511 keV.

What did Einstein say about matter and energy?

Albert Einstein’s most famous equation says that energy and matter are two sides of the same coin. I like to believe equations can be famous in the way a work of art, or a philosophy can be famous. People can have awareness of the thing, and yet never have interacted with it.

Does energy really exist?

What Is Energy? Energy isn’t actually real—it’s just a way for us to keep track of interactions. (Humans deal with stuff that isn’t real all the time. Words—words aren’t “real,” they are just ways that one human can share an idea with other humans.)

What is released when mass is converted to energy?

6 Answers. Much of mass is just binding energy, so in a chemical reaction the electrons rearrange themselves and energy is released and the total mass of the molecules goes down (in an exothermic reaction, for example).

What is the fastest anything can go?

speed of light
For centuries, physicists thought there was no limit to how fast an object could travel. But Einstein showed that the universe does, in fact, have a speed limit: the speed of light in a vacuum (that is, empty space). Nothing can travel faster than 300,000 kilometers per second (186,000 miles per second).

What is the conversion from mass to energy?

No conversion is necessary. The energy is already there otherwise energy would not be conserved. Also, an amount of stationary energy $E$has a mass $m=E/c^2$, again no conversion necessary. What you can do is to convert matter at rest with total mass $m$into photons with total energy $E=mc^2$.

Is it possible to convert a kg of matter to energy?

One way to convert a kg of matter to other forms of energy is to bring along a 1 kg mass of antimatter and have them annihilate. However I have always felt that this is a bad method, because it is well known that antimatter is very rare, and very difficult to produce.

What is the most general relation between mass and energy?

The most general relation (without approximations) is given by: E 2 = m 2 c 4 + p → 2 c 2. Considering the conversion of mass to energy. Because of the above relation energy and mass are set on an equal footing, we can change mass into energy and the other way around.