For two liquids of the same volume, the liquid with a higher density will have greater mass. Similarly, the liquid with a greater mass has a higher density. This is only true for samples of equal volume, however.
Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.
400 mg of liquid is equivalent to 0.4 grams. The volume it represents depends on the liquid's density; for example, 400 mg of water is approximately 0.4 milliliters, since water has a density of about 1 g/mL. For other liquids, the volume would vary based on their specific density.
There is one liter of water in a kilogram of water. There will be more or less of other liquids depending on the density of the liquid.
water is a liquid. Generally Liquids and Fluids are classified. Liquids are that state of matter which have loosely arranged molecules and they are highly flowy. Fluids are that state of matter which are a little more thick than liquids that is more viscous. for example, water is a liquid and Honey a fluid.
A liquid's buoyancy is determined by its specific gravity (density).
The density of a liquid determines its position in a column of liquid with different densities. A liquid with higher density will sink to the bottom, while a liquid with lower density will float on top. This is due to the concept of buoyancy, where denser liquids displace lighter ones, causing them to rise or sink accordingly.
For two liquids of the same volume, the liquid with a higher density will have greater mass. Similarly, the liquid with a greater mass has a higher density. This is only true for samples of equal volume, however.
pressure of liquid on bottom=density*gravitational force*depth :)
If you were submerged in a liquid more dense than water, the pressure would be correspondingly greater. The pressure due to a liquid is precisely equal to the product of weight density and depth. liquid pressure = weight density x depth. also the pressure a liquid exerts against the sides and bottom of a container depends on the density and the depth of the liquid.
The buoyant force on an object submerged in a liquid is equal to the weight of the displaced liquid. The density of the liquid affects the buoyant force as denser liquids will exert a greater buoyant force on an object compared to less dense liquids.
in relation to solids or liquids in liquids: Density. A lighter density compound/liquid will float in a heavier density liquid
An object will float if it has less density than the liquid in which it is placed.
Yes, liquids have a relatively high density compared to gases but lower density compared to solids. The density of a liquid depends on its mass and volume, with most liquids exhibiting moderate density values typically between the densities of gases and solids.
The relationship between mass and volume of a liquid is described by its density. Density is calculated as mass divided by volume. Therefore, the greater the volume of a liquid for a given mass, the lower its density, and vice versa.
A hydrometer measures the density of liquids by floating in the liquid and sinking to a certain level based on the liquid's density. The higher the density of the liquid, the lower the hydrometer will sink. The scale on the hydrometer provides a reading of the liquid's density.
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.