More or less. Specific gravity is the density of a substance, compared to the density of water - so the units may vary.
Almost, but not quite. 'Specific gravity' is the density of a substancecompared to water.Numerically . . .Specific gravity of a substance = Density of the substance/Density of water.
They aren't the same thing, but they can give you the same information. Specific gravity is a substance's mass density divided by the mass density of water. Specific gravity is a sort of normalized mass density. Materials with S.G. higher than one will sink in water. S.G. lower than one will float.
The same way you convert any density to specific gravity. Just divide the density of the substance (crude oil in this case) by the density of the reference substance (usually water, for liquids).
The specific gravity of a substance is a ratio of its density to the density of a reference substance, typically water. Since specific gravity is a ratio, it is independent of the gravitational field strength. Therefore, the specific gravity of mercury would remain the same on the moon, where gravity is one-sixth that of Earth.
Specific gravity is the ratio of the density of a substance to the density of a reference substance. Density is a measure of how mass is distributed in a given volume, while specific gravity compares the density of a substance to that of water. In other words, specific gravity is a dimensionless quantity that provides a relative measure of how dense a substance is compared to water.
Almost, but not quite. 'Specific gravity' is the density of a substancecompared to water.Numerically . . .Specific gravity of a substance = Density of the substance/Density of water.
They aren't the same thing, but they can give you the same information. Specific gravity is a substance's mass density divided by the mass density of water. Specific gravity is a sort of normalized mass density. Materials with S.G. higher than one will sink in water. S.G. lower than one will float.
No, specific gravity and density are not the same when discussing the physical properties of a substance. Density is the mass of a substance per unit volume, while specific gravity is the ratio of the density of a substance to the density of a reference substance, usually water.
Specific gravity and density will have the same value when the two substances under investigation have identical densities. Density is an expression of the amount of mass per unit of volume that a substance exhibits. Specific gravity is a comparison of the density of a substance to the density of water.
The same way you convert any density to specific gravity. Just divide the density of the substance (crude oil in this case) by the density of the reference substance (usually water, for liquids).
Specific gravity is the same as density, so if anything except diamondis used then the density would be changed
Specific gravity of sulfuric acid = 1.8 specific gravity is the ratio of the density of a substance to the density of water (waters density in the denominator). So this means the density is 1.8 g/mL
The term specific gravity means density in comparison to that of water. Density is weight divided by volume. So to get the volume, pour the oil into a graduated cylinder or measuring cup (same principle). To get the weight, use a scale (a chemist would use a triple beam balance). Once you have the density you can divide it by the density of water, and the result is the specific gravity.
"Specific gravity" or "specific density"
Specific gravity is a unitless measure that compares the density of a substance to the density of a reference material (usually water at 4 degrees Celsius). It indicates how many times denser or lighter a substance is compared to water. The specific gravity of water is 1.
The specific gravity of a substance is a ratio of its density to the density of a reference substance, typically water. Since specific gravity is a ratio, it is independent of the gravitational field strength. Therefore, the specific gravity of mercury would remain the same on the moon, where gravity is one-sixth that of Earth.
The same as their g/cm3 density, but with no units. It is the density of that material relative to the density of water. Since water has a density of 1g/cm3 the previous answer is correct, but it is more powerful than that. If you know the density in any unit system and divide it by the density of water in that same unit system, you will get the specific gravity.