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If you consider mass and energy to be equivalent and interchangeable, it does not conflict with the law of conservation of energy. E=mc2 states that energy is mass and mass is energy, so it does not disprove the law of conservation of energy.
The Law of Conservation of mass (or energy) states that matter cannot be created or destroyed.
The law of Conservation of Energy. Actually, that law has been superceded now by a slightly different one. Recently (maybe 100 years ago) it was learned that energy can become mass and mass can become energy. So the law had to be modified to say that the total combination of mass and energy can't be created or destroyed.
The law of conservation of matter states that matter cannot be created or destroyed. Although it can change states and different elements can be molecularly combined to make totally different compounds, the total mass in equals the total mass out. The law of conservation of energy states that energy cannot be created or destroyed; it can only be converted from one type to another. Both conservation laws have the exception that mass can be converted to energy and vice versa according to the equation E=mc2, where E is energy, m is matter, and c is the speed of light.
That would be the law of conservation of mass, conservation of matter.
If you consider mass and energy to be equivalent and interchangeable, it does not conflict with the law of conservation of energy. E=mc2 states that energy is mass and mass is energy, so it does not disprove the law of conservation of energy.
law of conservation of energy and mass
It states that energy can change but mass can not change Chuma.C
the of conservation of energy states that energy neither is created or destroyed it changes states the of conservation of mass states that mass neither is created or destroyed it only changes state
The law of conservation of mass states that in an isolated system, energy is neither created nor destroyed. It was first described by Antoine Lavoisier in 1789 and was later amended by Einstein in the Law of Conservation of Mass-Energy.
Law of Conservation of Energy
The law of conservation of mass. It states the total mass of an enclosed system cannot change. The law of conservation of energy. It states that energy can neither be created nor destroyed it transform from one form to another.
Law of mass conservation in chemistry: in a chemical reaction the mass of reactants is equal to the mass of products.Law of energy conservation: in a closed system the energy remain constant.
The Law of Conservation of mass (or energy) states that matter cannot be created or destroyed.
The law of Conservation of Energy. Actually, that law has been superceded now by a slightly different one. Recently (maybe 100 years ago) it was learned that energy can become mass and mass can become energy. So the law had to be modified to say that the total combination of mass and energy can't be created or destroyed.
There are two primary laws of conservation: conservation of energy and conservation of mass.The conservation laws in essence state that while matter or energy may change form, they can never be destroyed.In a chemical reaction, the conservation of mass dictates that the mass of the products will have exactly the same mass as the reactants.The law of conservation of energy states that energy can not be created or destroyed, it can only be changed from one form to another, such as when electrical energy is changed into heat energy.See the Web Links to the left for more information.
The law of conservation of matter states that matter cannot be created or destroyed. Although it can change states and different elements can be molecularly combined to make totally different compounds, the total mass in equals the total mass out. The law of conservation of energy states that energy cannot be created or destroyed; it can only be converted from one type to another. Both conservation laws have the exception that mass can be converted to energy and vice versa according to the equation E=mc2, where E is energy, m is matter, and c is the speed of light.