Yes, it is possible.
This is the determination of the specific density (the ratio liquid density/water density).
Pressure and Temperature will affect volume and thus also density. However the effect is much smaller than on gases (about 100-1000 times), it is mostly a bit bigger than the effect on solids.
If the density of the solid body is greater than the density of the liquid the bodywill sink. If the density of the liquid is greater than the density of the solid thebody will float.If the solid and the liquid have the same density, the solid body can be any whereinside the liquid and may move following currents if they exist in the liquid.Read more:How_does_the_density_of_a_body_and_that_of_a_liquid_determine_that_whether_the_body_will_float_or_sink_into_that_liquid
pressure of liquid on bottom=density*gravitational force*depth :)
the liquid inside of a density ball is equal to x=MC squared. inside the liquid of a density ball is Michael Jackson waiting to be found !!!!
no
depth of liquid and density of the liquid
Yes
Logan Travis Miller. <3
No, it is actually density that affects how much of a liquid is displaced when something is put in it. It is a common misconception that viscosity and density are the same thing, but the fact is, substances of the same density can have entirely different viscosities.
denser liquids tend to have more viscosity
That depends on the liquid and the solid. Liquid mercury has a very high density. Liquid gasoline has a very low density. At the melting point the density of a liquid and a solid are almost the same.
after you let several liquids (each with a different density) sit in a container for a while, the greater the density, the farther down the liquid is in a container
This is the determination of the specific density (the ratio liquid density/water density).
Temperature in this instance will not affect density, but rather pressure. The density of the gas will be much smaller than the density of a liquid or solid of the same chemical because it is a gas. The formula for density is mass over volume, and a gas has no measurable mass, making the gas always less dense than the liquid and the solid.
Most liquids are incompressible (or nearly so), therefore ordinary pressures have only a negligibly small effect on the density of a liquid. However, if you consider enormous pressures like those that may exist at the core of the sun, then a liquid's density will be increased by pressure under these extreme conditions.
The denser a material, the better its conductivity. Gas is worse than solids.