Specific gravity
From Wikipedia, the free encyclopedia
Specific gravity (SG) is a special case of relative density defined as the ratio of the density of a given substance, to the density of water. Substances with a specific gravity greater than 1 are heavier than water, and those with a specific gravity of less than 1 are lighter than water.
<math>\mbox{SG} = \frac{\rho_\mathrm{substance}}{\rho_{\mathrm{H}_2\mathrm{O}}}</math>
The density of the denominator, or reference, is <math>\rho_\mathrm{H2O}</math> = 1000 kg·m-3 (at 4°C/39.2°F) in SI units.
SG is by definition dimensionless and therefore not dependent on the system of units used (e.g. slugsft-3 or kgm-3), in so far as the units are consistent. Based on the SG-value of a given substance, the density of that substance can be calculated.
[edit] See also
- Jolly balance
- Pycnometer
- Fluid mechanics
- Buoyancy
[edit] Books
- Fundamentals of Fluid Mechanics Wiley, B.R. Munson, D.F. Young & T.H. Okishi
- Introduction to Fluid Mechanics Fourth Edition, Wiley, SI Version, R.W. Fox & A.T. McDonald
- Thermodynamics: An Engineering Approach Second Edition, McGraw-Hill, International Edition, Y.A. Cengel & M.A. Boles
es:Gravedad específica it:Gravità specifica
