ummmm volume can be conserved it just depends on the condition of what u r finding the volume of.
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In the beginning of the 20th century. He proposed mass-energy equivalence in 1905, and set out to mathematically express this. E = mc2 shows that energy can be converted into mass, and mass into energy. Thus, we no longer say that mass is conserved, or energy is conserved. But rather, we say that mass-energy is conserved.
I believe so due to the rising gold prices may be because of too much demand of gold
It depends on which theory of relativity you mean. The special theory of relativity has only one assumption, namely that the speed of light is constant (in vacuum!) and has the same value for each non-accelerating observer. Thus you can say the speed of light must always be conserved. In the general theory of relativity (the one with the curved spacetime and the geometric picture of gravity), one further assumption is made; that the inertial mass (resistance to acceleration) of every object is equal to its gravitational mass (source of gravity). This is called the Equivalence Principle and is sometimes explained as the requirement that all things fall at the same rate (if there is no air resistance) regardlass of mass. In this theory the equivalance of the two types of mass is always to be conserved. Also note that although these are the main assumptions it is usually also assumed that energy and momentum are conserved and that there is no violation of causality.
Food should be preserved so that it doesn't get spoiled or rot. If it does get spoilt and we consume it, the bacteria in the rotten food can make us ill.
Density = mass/volume so it is related to mass and volume. And Volume is related to temperature and pressure, so it is related to those as well.
No, the volume is not conserved because the density of two liquids are different.
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loop of Henle
No because they have different densities so the volume of the two combined will be slightly less.
No. Mass must be conserved in a chemical changes according to the law of conservation of mass, which holds that the mass of the reactants and the mass of the products of a chemical reaction must be equal. However, there is no similar law about conserving volume and volume can change dramatically if a gas is produced.
No. It may be the same before and after, but it certainly doesn't have to be (and often isn't), so it would be wrong to say it's "conserved". Some examples: To a first approximation, in the reaction H2 + Cl2 -> 2HCl the products have the same volume as the reactants. However, in the reaction N2O4 -> 2NO2, the reactant volume is half the volume of the products, assuming that the pressure is constant.
I understood that of the three classical state of matter - liquid is the only one with fixed volume since liquid can only exist for a limited temperature range (above or below this there will be change in state of matter eg. freezed or boiled) For example, you can't apply pressure to liquid in a closed system to decrease it's volume without freezing it. Another example is evident in the scenario where your blood will start to boil in space (vacuum = almost zero pressure).
As far as I know this is not true- volume can be increased or decreased. What is conserved in a chemical reaction is mass. Matter is not created or destroyed.
Solids are the least able to be changed. Liquidshave their volume conserved, though the shape may change. Gases have neither fixed volume nor shape.
it can be conserved in jars.
Not really, no.
they are conserved in a safe place