If 4 is cm3 and salt is NaCl the mass is 8,66 g.
The mass and the volume
density = mass/volume = 20/5 = 4 g/cm3
Mass divided by volume Ex. Mass: 12 Volume:3 Density:4 g/cm Hope this helps!
It depends on whether you wish to measure its length, its volume or its mass.
You have to know the density of the material, and the density equation, Density = mass/volume. Manipulate the equation to Mass = density x volume.
Density = Mass/Volume As salt(mass) increases and the volume remains the same, density also increases.
The mass and the volume
The most correct term for solid sodium chloride quantity is mass of salt.
Yes, always for all mixtures.Interestingly, the volume of the solution may not equal the volume of the two things before being mixed -- even for mixing two liquids.
density = mass/volume = 20/5 = 4 g/cm3
There is not much to calculate here - 4 cm3 is the volume. The mass is irrelevant for this problem.There is not much to calculate here - 4 cm3 is the volume. The mass is irrelevant for this problem.There is not much to calculate here - 4 cm3 is the volume. The mass is irrelevant for this problem.There is not much to calculate here - 4 cm3 is the volume. The mass is irrelevant for this problem.
Mass divided by volume Ex. Mass: 12 Volume:3 Density:4 g/cm Hope this helps!
Gram is a unit of mass and milliliter is a unit of volume.
This well known formula should lead you on your path: Density (grams/ml) = mass/volume
Yes, it will eventually. When you add salt to water, you are increasing the density of the solution, but not the volume, because the salt dissolves (dissociates). Since density is mass divided by volume, there is a direct relationship between the solution's mass and its density. They increase together even as the volume remains constant. An egg will float in a salt solultion if the molarity is about 2.5 or above.
Density is the mass per unit volume. Therefore, adding salt increases the mass of the water by a larger scale than it does the volume of the water. Actually when you add salt to the same volume of water the mas of the water has a noticeable increase, where as the volume appears to the same ( the volume does increase; however the change is so small that it is unnoticeable ,thus we say it stays the same). So a larger mass divided by the same volume gives you an increase in density.
Denisty = Mass/Volume = 20/4 = 5 g/cm3