Total mass of the reactants and products will remain conserved during a chemical reaction, this statement is called _____?

• Law of multiple proportions
• Law of definite proportions
• Law of reciprocal proportions
• Law of conservation of mass

Related MCQs

• The conservation of mass is obtained when the total mass of reactants is equal to the total mass of one of the following.
• The number of atoms of reactants is _____ equal to number of atoms of products in a balanced chemical equation.
• Consider the following equation: 4Fe + 3O₂ → 2Fe₂O₃: The combined mass of the reactants is for example 320 grams. The mass of the product will be _____?
• The amount of heat evolved or absorbed in the chemical reaction is the same no matter the reaction takes place in one step or several steps" in the statement of?
• If a chemical reaction can be brought about in more than one pathway, the net enthalpy change is the same provided that the initial and final states are the same. This statement is based on _____?
• Elements or compounds combining in a chemical reaction are called _____?
• A chemical reaction that involves heat or light to their surrounding is called exothermic reaction. Which one of the following is not exothermic reaction?
• Which of the following quantities does not remain conserved during pair production?
• Consider the following chemical reaction: AB + C →A + BC. The above reaction is type of _____?
• Newton's third law of motion states that for every action, there is an equal and opposite reaction. Which of the following statements can be inferred from the above-mentioned law of motion? Statement 1: For every interaction, there is a pair of forces acting on the two interacting objects., Statement 2: The magnitude of the force on the first object equal the magnitude of the force on the second object., Statement 3: Forces always comes in pairs - equal and opposite action reaction force pairs., Statement 4: Action and its reaction act on two same bodies., Statement 5: Action and its reaction act on two different bodies.