when a odject stops moving the energy transfered to the air around it for example a pingalum, when it stops the energy doesn't run out it is transfrerd to the air
The Conservation of Matter and the Conservation of Momentum are the consequence of the Conservation of Energy.
The conservation of Energy-Matter.
The matter is anything that takes up space. Energy is basicly the same as matter.
There is the law of conservation of mass, and the law of conservation of energy. All three state: (Mass/Matter/Energy) cannot be created or destroyed, simply transferred.
Scientists call this law the law of conservation of matter
The Conservation of Matter and the Conservation of Momentum are the consequence of the Conservation of Energy.
The conservation of Energy-Matter.
The matter is anything that takes up space. Energy is basicly the same as matter.
Conservation of Matter, Conservation of Energy, Conservation of Charge and Conservation of Momentum.
There is the law of conservation of mass, and the law of conservation of energy. All three state: (Mass/Matter/Energy) cannot be created or destroyed, simply transferred.
Scientists call this law the law of conservation of matter
The law of conservation of energy says that energy is neither created nor destroyed only changed. It works hand in hand with the law of conservation of matter, because matter can be converted to energy and vice versa.
law of conservation of mass
This is the Law of Conservation of Matter.
The law of conservation of energy itself is not strictly correct since nuclear reactions change a small amount of matter into energy, if this is what you mean.
You are confusing the law of conservation of matter/mass with the law of conservation of energy. The law of conservation of matter/mass states that in a closed system matter is neither created nor destroyed. During a chemical reaction matter is rearranged, it doesn't change forms (energy can change forms). The atoms in the products are the same atoms that were in the reactants.
Conservation of energy means that the total energy of a system remains constant no matter what the internal changes are.