Einstein's equation, E=MC2.
Yes, matter and energy are equivalent and proportional according to the equation E = mc2.
Matter and energy are equivalent (E=MC2).
Matter and energy are equivalent (E=MC2).
Matter and energy are equivalent (E=MC2).
In theory, according to the Theory of Relativity, matter has an equivalent energy, that can be calculated as E = mc2. That is, a kg. of matter has an energy equivalent of 9x1016 joules. This doesn't mean that all that energy can actually be converted, but in some cases it can - for example, when matter collides with antimatter, it all gets converted to energy.
They are equivalent, E = mc2. If mass is destroyed, energy is released
at the dead state or zero state. it is the state of matter which is equivalent to the state of surroundings
matter...but using Enstein's equation of general relativity (E=mc2), you can determine the equivalent energy contained of a given mass of matter, where c=the speed of light (186,000 mi/sec).
No, Einstein did not say that matter and energy are equal. It is obvious to everyone that they are not.If matter and energy were equal, the equation would be E=m, and that makes no sense on many levels.What Einstein said was that a given amount of matter is equivalent to a specified amount of energy, and vice versa. His formula E = mc**2 means that an amount of matter (m) is equivalent to an amount of energy (E) that can be calculated by multiplying the amount of matter by the speed of light and then by the speed of light again (the speed of light, squared).
Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.
Matter is related to energy in the so-called mass-energy equivalence. You may have seen it. It is E = mc2 and was handed to us by Albert Einstein. It states that mass and energy are equivalent, and that the conversion factor is the square of the speed of light. It's that simple. But the implications are huge. You'll find a link below.
If they are astronomers, they classify everything as 'interesting'. I think the answer may be something like "matter or energy". In fact, according to Relativity Theory, mass (of matter) and energy are in many ways equivalent. "Mass-energy" is a term often used to refer to this fact. Pretty well everything in the Universe is matter or energy,