Yes, in a chemical reaction matter (mass) can not be crated or destroyed).
False. In a chemical equation, the total mass of the products is equal to the total mass of the reactants due to the law of conservation of mass. The mass of individual atoms may change during a chemical reaction, but the total mass remains constant.
The mass of the reactants compare to the mass of the products in that they are equal. The law to conservation of mass states that mass cannot be createdor destroyed. It can only be altered which would be a case in a chemical reaction.
The volume of reactants and products in a chemical reaction can vary depending on the stoichiometry of the reaction and physical state of the substances involved. In many cases, the volume of reactants may not be equal to the volume of products due to the formation of new substances with different properties.
To prove that mass is conserved during combustion reactions, you would need to measure the mass of all the reactants before the reaction and the mass of all the products after the reaction. If the sum of the masses of the reactants is equal to the sum of the masses of the products, then mass is conserved. This can be done by using a balance or scale to accurately measure the masses involved.
At equilibrium, the rates of the forward and reverse reactions are equal, but the amounts of reactants and products may not be equal. The concentrations of reactants and products can vary depending on the specific equilibrium constant for the reaction.
The mass of reactants is equal to the mass of products.
The mass of the products is always equal to the mass of the reactants.
False. In a chemical equation, the total mass of the products is equal to the total mass of the reactants due to the law of conservation of mass. The mass of individual atoms may change during a chemical reaction, but the total mass remains constant.
The mass of the reactants compare to the mass of the products in that they are equal. The law to conservation of mass states that mass cannot be createdor destroyed. It can only be altered which would be a case in a chemical reaction.
The volume of reactants and products in a chemical reaction can vary depending on the stoichiometry of the reaction and physical state of the substances involved. In many cases, the volume of reactants may not be equal to the volume of products due to the formation of new substances with different properties.
To prove that mass is conserved during combustion reactions, you would need to measure the mass of all the reactants before the reaction and the mass of all the products after the reaction. If the sum of the masses of the reactants is equal to the sum of the masses of the products, then mass is conserved. This can be done by using a balance or scale to accurately measure the masses involved.
The mass of the reactants will always be equal to the mass of the products.
At equilibrium, the rates of the forward and reverse reactions are equal, but the amounts of reactants and products may not be equal. The concentrations of reactants and products can vary depending on the specific equilibrium constant for the reaction.
In a balanced chemical reaction the total mass of the products always equals the total mass of reactants; this is the law of mass conservation.
At equilibrium, the formation of products from reactants will be faster.
The term used to describe the calculation of the quantities of reactants and products in a chemical reaction is stoichemistry. It is the calculation of quantitative (measurable) relationships of the reactants and products in a balanced chemical reaction.
The reactants will have a slightly greater mass because as the reaction occurs the mass of the reactants will separate out into the products and in the process a small amount of the mass from the original reactants will be lost leaving the products with less mass than the original reactants.