In the energy because of Einsteins equation: E=mc^2. In a chemical change, mass is converted to energy because of the loss in strong forces and weak forces in molecules.
A hemical reaction has no mass; only chemical compounds have molar mass.
A change in mass is not always an indicator of a chemical change because mass is conserved in chemical reactions. The total mass of the reactants is equal to the total mass of the products. However, there are some exceptions where a change in mass can occur due to the release or absorption of gases or changes in the physical state (such as evaporation or condensation) during a chemical reaction.
mass mass
mass
Mass is conserved. This means it remains constant.
There will be a gain in mass.....but you can't predict the new change in mass unless you weigh the products after the chemical change occurred.
A hemical reaction has no mass; only chemical compounds have molar mass.
A change in mass is not always an indicator of a chemical change because mass is conserved in chemical reactions. The total mass of the reactants is equal to the total mass of the products. However, there are some exceptions where a change in mass can occur due to the release or absorption of gases or changes in the physical state (such as evaporation or condensation) during a chemical reaction.
No, it is NOT an indicator of a chemical reaction. Change in color IS an indicator of chemical change, though.
Total mass never changes.
Mass is neither a physical nor chemical change; however, it is a physical property of matter.
yes
Physical changes are like cutting paper. The mass does not change. Chemical changes do not change total mass either. If you put a candle in a sealed container so that you may measure the total mass of the candle and the air before burning, then light the candle electrically but keep everything sealed, the total mass after burning will still be the same. But if you measure only the candle, then its mass has changed. So the mass of one single 'ingredient' will change during a chemical change.
Neither of them affect mass in a closed system.
no it is not chemical change it is a mass transfer operation in which mass is transferd from higher concentration compound to lower compound
The Law of Conservation of Mass applies to chemical changes. When considering a chemical change this would mean that the total mass of all of the reactants in the chemical reaction is equal to the total mass of products in the chemical reaction.
Change in total mass of substances.