Physics:Specific density
| Specific density | |
|---|---|
Common symbols | [math]\displaystyle{ \rho_{sp} }[/math] |
| SI unit | dimensionless |
Derivations from other quantities | [math]\displaystyle{ \rho_ = \frac {\text{m}}{\mathrm{V}} \frac {1}{\mathrm{\rho_{ref}}} }[/math] |
Definition
Specific density is a now obsolete term for relative density, which is the now preferred term. [1][2]
Specific density is the density of an object divided by the density of a reference material. Specific gravity, a still-used but deprecated term, is the same as relative density. As an example, if a material has a specific density or relative density or specific gravity of 5, that means it has five times the density of some reference material (which should be named as part of the definition).
Density vs. gravity
Specific density, being the same as relative density, is a dimensionless quantity. Usually specific density is density relative to water, but other types of relative density are possible (such as density relative to the density of dry air). [3][4]
References
- ↑ "Specific Density". Law Insider. https://www.lawinsider.com/dictionary/specific-density.
- ↑ "Specific density". Chamber's Encyclopædia. 9. 1898. p. 614. https://books.google.com/books?id=WbFOAQAAMAAJ&pg=PA614&dq=%22specific+density%22.
- ↑ "Density and Specific Gravity". Ricca Chemical. https://www.riccachemical.com/pages/tech-tips/density-and-specific-gravity.
- ↑ Helmenstine, Anne Marie (Sep 2, 2019). "What Is the Difference Between Density and Specific Gravity". https://www.thoughtco.com/density-and-specific-gravity-differences-606114.
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