Difference between revisions of "Density"
Jump to navigation
Jump to search
| Line 18: | Line 18: | ||
*Non-Explosive Reactive Armor (Rubber) - 8.75 g/cm3 | *Non-Explosive Reactive Armor (Rubber) - 8.75 g/cm3 | ||
*Lead - 11.34 g/cm3 | *Lead - 11.34 g/cm3 | ||
*Depleted Uranium - 18.6 g/cm3 | *Depleted [[Uranium]] - 18.6 g/cm3 | ||
*Tungsten - 19.25 g/cm3 | *Tungsten - 19.25 g/cm3 | ||
*Iridium - 22.65 g/cm3 | *Iridium - 22.65 g/cm3 | ||
[[Category:Science Reference]] | [[Category:Science Reference]] | ||
Latest revision as of 16:55, 26 March 2019
Density is a property of matter that describes the amount of mass occupying a particular volume of space. A high-density object is heavier than a low-density object of the same size.
Densities of typical materials
- Air - 0.0013 g/cm3
- Styrofoam - 0.035 g/cm3
- Water - 1 g/cm3
- Steltexolite - 1.76 g/cm3
- Chobham Armor - 2.22 g/cm3
- Aluminum - 2.66 g/cm3
- Honeycombed Aluminum - 2.76 g/cm3
- 1990s Explosive Reactive Armor - 2.96 g/cm3
- Alumina-based Ceramics - 3.58 g/cm3
- Titanium - 4.5 g/cm3
- Rolled Homogenous Armor (Face Hardened) - 7.82 g/cm3
- Rolled Homogenous Armor (Rolled)- 7.85 g/cm3
- Rolled Homogenous Armor (Cast) - 7.86 g/cm3
- Mild Steel - 7.87 g/cm3
- Non-Explosive Reactive Armor (Rubber) - 8.75 g/cm3
- Lead - 11.34 g/cm3
- Depleted Uranium - 18.6 g/cm3
- Tungsten - 19.25 g/cm3
- Iridium - 22.65 g/cm3