The only way to change the mass of water would be to either add more of it (which wouldn't change it's density - density is an intensive property, not extensive) or to change the isotopes of hydrogen and oxygen in the water - thus getting "heavy water" such as is present as an intermediate materiel in the refining of tritium and as a moderator in some nuclear reactors.
That depends what you remain constant. You can consider a constant volume, or a constant mass. If you maintain the mass constant, then no - if you increase the density, the volume for a mass unit will less.
Density = mass / volume. So if the volume changes, the density will obviously also change.
No the density of 1g of water is the same as the density of 1kg of water which is the same as 1 ton etc. Density does not change with quantity.
Yes it does,it increases the amount of density
Density of a liquid is indirectly proportional to the temperature. When the temperature raises, the density of the liquid decreases. Therefor the temperature has an effect on water density.
you Are adding mass
Density
density
Yes it does,it increases the amount of density
this will cause the density to be lower than it actually is because it does not displace the full amount of water it should
The density of ice is lower than the density of water; ice float on water.
what is the effect of placing an object with a greater density than water in a bucket of water
it has no effect. density of a substance is the same no matter the size or shape of the sample.
The same as the density of any other amount of water.
This depends on the amount of water and the amount of salt.
Sugar has a greater density than water. This is obvious from the fact that it sinks in water. If you add sugar to water, the water's density increases.
It could, but it depends largely on what density you're referring to.
Absolutely! Not saying denser wood does not absorb at all, but it does absorb a far less amount than a softer, less dense wood.
The density of something does not depend on the amount of the substance you have, the density of 1 gram of water is the same as the density of 100000000 grams of water. The density of pure water at standard temperature and pressure is 1.
Density