An example of the law of conservation of mass is the combustion of a piece of paper to form ash, water vapor and carbon dioxide. In this process, the mass of the paper is not actually destroyed; instead, it is transformed into other forms. This best demonstrates the law that states matter cannot be created or destroyed. However, the form of matter can be changed.Know More
If the total mass of the compounds resulting from burning the paper are weighed, it still equals the mass of the paper. In a chemical reaction, two molecules of hydrogen gas (H) combine with one molecule of oxygen gas (O2) to form one molecule of water (H2O). Evidently, no matter has been destroyed. Another example that illustrates this law is the heating of 10 grams of calcium carbonate (CaCo3), which produces 4.4 grams of carbon dioxide (CO2) and 5.6 grams of calcium oxide (CaO). In this chemical reaction, the total mass of the resultant products is equal to the total mass of the reactants.
The law of conservation of energy is similar to that of conservation of mass. When an electric heater is turned on, the electrical energy is converted into heat energy. If the amount of electricity supplied to the heater is measured, it equals the amount of heat produced by the heater. This emphasizes the fact that energy cannot be created or destroyed but only changed.Learn more about States of Matter
The law of conservation of mass states matter can be changed from one form to another, but the total mass stays the same in an isolated system. If a group of items is mixed then the total mass is the same as the individual masses added together. Those items may change states, like liquid from a solid, but the mass of both states will be the same.Full Answer >
The law of conservation of mass states that the mass of the reactants and the mass of products in a chemical reaction are equal. This refers to matter not being destroyed or created.Full Answer >
An example of the law of multiple proportions is carbon monoxide and carbon dioxide. Carbon combines with oxygen in different proportions to form two different oxides. The ratio of the fixed weights of carbon that combines with oxygen in both oxides is a simple whole number.Full Answer >
The difference between steam and water vapor is that water vapor is typically the same temperature as the air that is present while steam is above the boiling point of water. The chemical composition of water and steam are identical.Full Answer >