No. The expansivity is on a per unit basis just like the specific heat or density is.
The pressure at the bottom of a barrel filled with liquid does not depend on the shape or size of the barrel. It depends only on the depth of the liquid and the density of the liquid.
There is no exact answer. The coefficient changes with pressure, temperature and salinity. For seawater this value can be found in a paper by safarov, called thermal properties of seawater, table 11.It is available at ocean-sci.net
i think it also depends on it's weight of course
The specific gravity of the resultant liquid will be a weighted average of the specific gravities of the original liquids, based on their proportions in the mixture. This means that the specific gravity of the resultant liquid will fall between the specific gravities of the two original liquids.
A volatile liquid typically has a low boiling point, causing it to vaporize easily at room temperature. The shape of a volatile liquid in a container will depend on factors such as gravity, surface tension, and any external forces acting on it.
mass of empty density bottle=30g mass of bottle+liquid=40g heating of the filled bottle=40degree c mass reduced when heated=3g apparent cubic expansivity=? volume of liquid expelled volume of liquid*temp rise remains 40-38 [38-30]*40 2 840=6.2510^-3k^-1
The pressure at the bottom of a barrel filled with liquid does not depend on the shape or size of the barrel. It depends only on the depth of the liquid and the density of the liquid.
As liquid rock cools down, its particles lose energy and move closer together, forming solid crystals. This process is known as crystallization. The specific minerals that form depend on the composition of the original liquid rock and the cooling rate.
The original name for Liquid Paper was "Mistake Out." It was later renamed to "Liquid Paper" by its inventor Bette Nesmith Graham.
The number of neutrons will depend on what is the liquid. There is no general rule.
It doesn't matter how much of the liquid you have and it is a characteristic property.
That would depend on how dense the liquid is.
Yes, it does depend on the object's density; it depends on the liquid's density, too. An object with a lower density than the liquid it is in will float, while an object with a heavier density than the liquid will sink.
Liquid's viscocity depends on temperature. As a rule, viscosity drops with the increase of temperature.
There is no exact answer. The coefficient changes with pressure, temperature and salinity. For seawater this value can be found in a paper by safarov, called thermal properties of seawater, table 11.It is available at ocean-sci.net
The solubility of a solute in a solvent depend on the temperature.
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