Depending on the type of liquid it is the exact density is different.
In general liquid densities are lower than those of solids, because the molecules are spread out in liquid form. Notable exception Hg (Mercury) with a density of 13,6 on which both iron and lead float!
Divide the mass by the volume (in SI units kilograms divided by liters or equivalently grams divided by cubic centimeters)
This is the determination of the specific density (the ratio liquid density/water density).
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 !!!!
Its density decreases.
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.
This is the determination of the specific density (the ratio liquid density/water density).
That depends on the liquid and the solid. Coal is a solid with a very low density. Mercury is a liquid with a very high density.
The mass of the liquid divided by its volume is its density.
The liquid with a lower density float over the liquid with a highrer density.
The liquid have density.
The floating liquid will have a lower density than the liquid it is floating on.
The density of the liquid is equal to the weight of the liquid divided by the volume.
The floating liquid will have a lower density than the liquid it is floating on.
Any liquid has a density of 80 g/cm3.
Mercury has the greatest density as a liquid in room temperture.
Buoyant force is directly proportional to the density of the liquid. as the density of the liquid increases, the Buoyant force increases.