The law of the conservation of mass.
Stating that something is flammable is stating a chemical property. But the actual burning would be a chemical change.
The copper cycle is supported by the conservation of mass because the copper was turned into a liquid stating that the copper was destroyed but then turned into another chemical "make up"
Kinetic theory explains the measurable volume of a gas, by stating that, the volume of a gas is inversely proportional to the pressure exerted on it, where pressure is created by the number of molecular collisions.
Firstly, I will begin by stating that for every chemical reaction there is an activation energy. This means, a reaction requires energy to undergo; however, this energy is most often take from the environment, such as in the form of heat. In some cases, the reactants require a great deal of energy and are thus supported by energy providers like ATP or reaction facilitators such as enzymes. In the area of bonds, many reactions entail a change in the bonds contained in the molecule produced. For example, when glucose is broken down to produce ATP, it's bonds are removed and its atoms placed onto new molecules. Thus, for this reaction and most others, the bonds are broken and replaced. Moreover, in the production of disaccharides, only one bond is broken on each monosaccharide, by way of a dehydration reaction. The leftover ends of each molecule, wanting to bond and this achieve a less reactive state, then attach. Thus, bonds are broken and replaced here as well. As such, it can be concluded that in a chemical reaction, the reactants' bonds are changed, not always totally, but in the removal of done bonds and addition of others.
stating the problem and then designing the experiment.
The Law of Conservation of Matter dictates that the mass of the reactants is equal to the mass of the products, i.e., mass will not be created, nor destroyed during the chemical reaction.
During chemical processes in a closed system the mass remain constant.
The Law of the Conservation of Energy. Stating it can be neither created or destroyed but changed from one form to another.
The chemical reaction is:C2H4 + H2O = C2H5OHConditions: water vapours at high pressure and 300 oC, phosphoric acid as catalyst.
Law of Conservation of Mass is a relation stating that in a chemical reaction, the mass of the products equals the massof the reacants.
it is known as 2 thing the first law of thermodynamics and the law of conservation of energy
Stating that something is flammable is stating a chemical property. But the actual burning would be a chemical change.
Lavoisier made the atomic theory of matter, stating that matter is not destroyed or created, just changes form.
The copper cycle is supported by the conservation of mass because the copper was turned into a liquid stating that the copper was destroyed but then turned into another chemical "make up"
law of conservation of mass
Contrary to your question there is no law stating this, infact there is a law stating the opposite. That mass is neither lost nor gained in a chemical reaction. So no matter what you do mass can neither be gained nor lost unless you purposefully add or take away mass.
the law of conversation if energy is a principle stating that the total energy on an isulated system remains constant regardless of changes within the system