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Why is the law of conservation of mass also known as the law of conservation of atoms?
I've never heard of the law of conservation of atoms, but since mass (matter) is made up of atoms, it makes sense. Perhaps your teacher was trying to emphasize how important it is to make sure you have the same numbers of atoms of the same elements on both sides of a chemical equation.
What else can I help you with?
Why doesn't rusting violate the law of conservation of mass?
Why should it violate it? Atoms are simply rearranged. No new atoms are created, no atoms are destroyed. The rust will have more mass than the original iron (or whatever metal is rusting), but that's because oxygen atoms from the atmosphere are added. Add: This does not violate the law of conservation of mass, because the mass of the rust is the combined mass of the iron and the oxygen in the atmosphere that reacted to form the rust.
What scientific law is satisfied when balancing equations?
Law of Conservation of mass(atomic mass). As mass can be considered relative to energy, therefore Law of Conservation is also correct but Law of conservation of mass is is much more accurate because here mass is a much more accurate term that is required here. Here, since, we are balancing molecules, then we require atomic or molecular mass.
What is the full law of conservation of mass?
Law of Conservation of Mass/Matter states that in a chemical reaction, matter is neither created nor destroyed. This means that whatever is in the reactants is also in the products, but the atoms have been rearranged. The mass of the reactants equals the mass of the products. This is why chemical equations must be balanced.
If you were to compare the mass of the products and reactants in a reaction what would you find?
In a chemical reaction, the total mass of the products is always equal to the total mass of the reactants. This is known as the law of conservation of mass. It means that no atoms are lost or gained during a chemical reaction, only rearranged to form new compounds.
What law states that mass cannot be created or destroyed in chemical or physical changes?
The law that states mass cannot be created or destroyed in chemical or physical changes is the Law of Conservation of Mass, also known as the Principle of Mass Conservation. This law implies that in a closed system, the total mass remains constant before and after any chemical or physical process, even if the substances undergo a change in form or state.
Why is the law of conservation of mass is also known as the law of conservation of atoms?
I've never heard of the law of conservation of atoms, but since mass (matter) is made up of atoms, it makes sense. Perhaps your teacher was trying to emphasize how important it is to make sure you have the same numbers of atoms of the same elements on both sides of a chemical equation.
What is always conserved in a chemical reaction?
In a chemical reaction, the total mass and the number of atoms of each element are always conserved. This is known as the law of conservation of mass.
What states that matter is not created or destroyed in a chemical reaction?
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.
What is it called in a chemical reaction where atoms are neither created nor destroyed?
In any chemical reaction atoms are neither created nor destroyed.
What is another name for the law of conservation of matter?
The law of conservation of matter is also known as the law of conservation of mass. It states that mass is neither created nor destroyed in a chemical reaction, only rearranged.
What is the same number that existed before the reaction exist after the reaction?
The total number of atoms is conserved in a chemical reaction, meaning the number of atoms of each element before the reaction will be the same as after the reaction. This principle is known as the law of conservation of mass.
Why doesn't rusting violate the law of conservation of mass?
Why should it violate it? Atoms are simply rearranged. No new atoms are created, no atoms are destroyed. The rust will have more mass than the original iron (or whatever metal is rusting), but that's because oxygen atoms from the atmosphere are added. Add: This does not violate the law of conservation of mass, because the mass of the rust is the combined mass of the iron and the oxygen in the atmosphere that reacted to form the rust.
Explain how the balancing of chemical equation shows that mass is conserved?
Balancing a chemical equation ensures that the number of atoms of each element on the reactant side is equal to the number on the product side. This conservation of atoms implies the conservation of mass. When the equation is balanced, the total mass of the reactants is equal to the total mass of the products, demonstrating the law of conservation of mass.
How does Dalton atomic theory explain the law of conservation of mass?
Dalton doesn't explain the law of conservation of mass.
What remain unchanged in a chemical reaction?
In a chemical reaction, the total number of atoms of each element remains the same before and after the reaction. This is known as the law of conservation of mass. Additionally, the total charge in the reaction should also remain the same.
According to the law of conservation of mass if two atoms of hydrogen are used as a reactant how many atoms of hydrogen must be part of the product?
If two atoms of hydrogen are used as a reactant, the law of conservation of mass dictates that the total number of hydrogen atoms in the products must also be two. This means that the number of hydrogen atoms remains the same before and after the reaction, so two atoms of hydrogen must be part of the product.
What scientific law is satisfied when balancing equations?
Law of Conservation of mass(atomic mass). As mass can be considered relative to energy, therefore Law of Conservation is also correct but Law of conservation of mass is is much more accurate because here mass is a much more accurate term that is required here. Here, since, we are balancing molecules, then we require atomic or molecular mass.
