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Mass (Matter) and Energy is conserved during a Chemical equation
Yes. This is due to the law of conservation of mass/matter.
A balanced chemical equation has the same number of atoms of each element on both sides. The mass of the reactants is equal to the mass of products.
While overall ENERGY has to be conserved, MASS does not. In a nuclear reaction mass can be converted into energy so the mass of the products may be less than the mass of the reactants. The difference in mass is converted into energy as Einstein's equation describes (E=MC squared). In a chemical reaction MASS has to be conserved.
According to the Law of Conservation Of Mass,Matter is neither created nor destroyed.It means a chemical equation show that matter is always conserved in a chemical reaction.It is shown as number of atoms both sides of the reaction before and after remains the same.
Mass (Matter) and Energy is conserved during a Chemical equation
Yes. This is due to the law of conservation of mass/matter.
A balanced chemical equation has the same number of atoms of each element on both sides. The mass of the reactants is equal to the mass of products.
In stoichiometry, the equation is balanced by using molar ratios. Because each item on either side of the equation has a specific molar mass, it can be demonstrated that all mass is conserved through the chemical reaction.
While overall ENERGY has to be conserved, MASS does not. In a nuclear reaction mass can be converted into energy so the mass of the products may be less than the mass of the reactants. The difference in mass is converted into energy as Einstein's equation describes (E=MC squared). In a chemical reaction MASS has to be conserved.
According to the Law of Conservation Of Mass,Matter is neither created nor destroyed.It means a chemical equation show that matter is always conserved in a chemical reaction.It is shown as number of atoms both sides of the reaction before and after remains the same.
In stoichiometry, the equation is balanced by using molar ratios. Because each item on either side of the equation has a specific molar mass, it can be demonstrated that all mass is conserved through the chemical reaction.
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.
mass
The mass of reactants must be equal to the mass of products.
Its conserved during the combustion of anything - the mass of the products is always equal to the mass of the materials that react.
Of course !