we can`t with the technology we have today we can only convert like one billionth of a percentile of mass into energy, if we could eventually do it a glass of water could power the world for a long time
Gamma rays are a type of electromagnetic radiation, which is a type energy. Because a gamma ray is a type of energy, it has no mass.
No, nothing can violate the law of conservation of energy, it's a law! Energy can convert to mass, and mass can convert to energy, but the overall total of mass and energy in the universe is constant.
No. Nor can you convert mass into energy. In any reaction - including nuclear reactions - both the amount of mass and the amount of energy remain the same, before and after the reaction. For example, the energy that escapes from a nuclear reaction also has a corresponding mass. On the other hand, the energy existed before the reaction as well, in the form of (nuclear) potential energy.
Nuclear reactions convert some of the mass into energy according to Einstein's equation E=mc^2, where E is energy, m is mass, and c is the speed of light. This process is the basis of nuclear power plants and nuclear weapons.
Light is a form of electromagnetic radiation that carries energy. It consists of photons, which are bundles of energy that have properties of both particles and waves. So, while light itself is not "pure energy," it can transfer energy when interacting with matter.
No. Mass and kinetic energy are not the same thing.
You generally need a catalyst or a mechanism to convert the energy. For example to convert fuel (a mass) into thermal energy, oxidizer and a spark are needed.
Fast enough to convert 4 million tons of mass to energy, every second.Fast enough to convert 4 million tons of mass to energy, every second.Fast enough to convert 4 million tons of mass to energy, every second.Fast enough to convert 4 million tons of mass to energy, every second.
To calculate the mass of a pure product in stoichiometry, you need to use the stoichiometric coefficients from the balanced chemical equation to convert the given amount of reactant into the desired product. Once you have determined the moles of the product, you can then convert moles to grams using the molar mass of the product. This will give you the mass of the pure product produced.
No. You might say it is "pure energy", but any energy has an associated mass, according to the formula e = mc2. Thus, the associated mass can be calculated as m = e/c2. (Therefore, it will also have momentum.)
Because light is pure energy.
EM radiation carries energy without a mass-carrying medium. In that sense, they are energy in pure form. However, considering Einstein's mass-energy equivalency (E=mc2), EM energy can, in rare circumstances, be converted to mass at a rate of 300,000,000 Joules/kilogram, and mass converted to energy at the same rate.
To convert energy transferred per gram to energy transferred per mole, you need to first calculate the molar mass of the substance in grams per mole. Then, you can use this molar mass to convert the energy transferred per gram to energy transferred per mole by multiplying or dividing accordingly.
No. ppm is a pure number - a ratio. g per kwh is a measure of mass per energy with dimensions: [L-2][T2]
generators which convert mechanical energy to electrical energy and motors which convert electrical energy to mechanical energy
The mass can be converted in energy: the equation of Einstein is: E= mc2.
To convert mass energy to kilowatts, you need to first convert mass into energy using the equation E=mc^2, where c is the speed of light. Then, convert the energy into kilowatts by dividing by the desired time interval. A 100 grams of mass energy would correspond to a very large amount of kilowatts due to the speed of light being squared in the equation.