E=MC2
energy=mass*(speed of light in a vacuum)squared
so say you lose 0.001kg of mass, thats
E=0.001*1,079,252,848.8km/h
E=1,079,252.8488
so 1,079,252.8488 joules of energy for every gram of mass lost
Yes It is
What formula, developed by Albert Einstein, describes the relationship between energy and matter? "Nuclear reactions convert matter into energy. In 1905, Albert Einstein developed a formula that described the relationship between energy and matter. You have probably seen this famous equation, E=mc2. In the equation, the E represents energy and m represents mass. The c, which represents the speed of light, is a very large number. This equation states that when matter is changed into energy, an enormous amount of energy is released."
According to Einstein, E=mc^2. That is, energy equals mass times the speed off light squared. In laymen's terms, the amount of energy in an amount of mass is that mass times 300,000,000 squared.
Einstein's theory of relativity, e=mc2
Temperature is a measure of how much energy an object has. Einstein's famous equation states the relationship your asking about; E=mc2. That is, the amount of energy an object has is proportional to its mass multiplied by the speed of light squared.
Albert Einstein
Albert Einstein in 1905
matter and energy
Yes It is
Einstein's equation, E=mc2, says that energy and mass are equivalent and can be converted into each other.
Einstein's equation, E=mc2, says that energy and mass are equivalent and can be converted into each other.
it was discovered by Albert Einstein.
Einstein's equation, E=mc2, says that energy and mass are equivalent and can be converted into each other.
What formula, developed by Albert Einstein, describes the relationship between energy and matter? "Nuclear reactions convert matter into energy. In 1905, Albert Einstein developed a formula that described the relationship between energy and matter. You have probably seen this famous equation, E=mc2. In the equation, the E represents energy and m represents mass. The c, which represents the speed of light, is a very large number. This equation states that when matter is changed into energy, an enormous amount of energy is released."
According to Einstein, E=mc^2. That is, energy equals mass times the speed off light squared. In laymen's terms, the amount of energy in an amount of mass is that mass times 300,000,000 squared.
Einstein's theory of relativity, e=mc2
Temperature is a measure of how much energy an object has. Einstein's famous equation states the relationship your asking about; E=mc2. That is, the amount of energy an object has is proportional to its mass multiplied by the speed of light squared.