The law of conservation of mass states that in a close container, when a chemical reaction occurs, no mass will be lost.
The law of conservation of mass applies to all chemical reactions with the exception of nuclear reactions. In nuclear reactions, mass is converted to energy to vice versa. Thus, the law of conservation of mass does not apply in these cases.
chemical reactions....actually it is matter (mass)
During a chemical change,chemical energy may be changed to other forms of energy.other forms of energy may also be changed to a chemical energy.
The only experiments that do not maintain mass are some nuclear experiments whereby mass becomes energy. All chemical reactions must maintain the conervation of mass.
The numbers of sodium, oxygen, and hydrogen atoms are the same on both sides of the equation.
Atoms cannot be added or lost in a chemical reaction.
The law of Conservation of Mass states that in ordinary chemical reactions, mass can not be created or destroyed.
Chemical reactions respect the law of mass conservation.
The Law of Conservtion of Mass is essential in all chemical reactions. "related to chemical reactions" is a foolish statement, because the words are "essential", "required", and "fundamental".
the law of conservation of mass states that matter can neither be created nor destroyed. so when a chemical reaction takes place, no matter is being destroyed. the mass of the reactants must equal the mass of the products.
chemical reactions....actually it is matter (mass)
The law of conservation of mass applies to all chemical reactions with the exception of nuclear reactions. In nuclear reactions, mass is converted to energy to vice versa. Thus, the law of conservation of mass does not apply in these cases.
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.
Joseph proust
An increase in mass is normally caused by chemical reactions with other materials, Similarly, a loss in mass can be explained by a physical change of state or by the removal of elements or compounds by chemical reactions.
yes!
because the total mass of the reactions in a chemical reaction is the same as the total mass of the products.