What is the density of mercury?
What is the density of mercury?
Mercury has a density of 13.5 g/mL, which is about 13.5 times denser than water (1.0 g/mL), so a small amount of mercury like this feels unexpectedly heavy. Mercury also has a very high surface tension, so small droplets of mercury form nearly spherical beads on glass.
What is the specific gravity of mercury in kg m3?
The density of metal, mercury, is 13.546 gm/cm^3 or, 13,546 kg/m^3. The density of water is much less, in comparison, and is only 1000 kg/m^3. That is, mercury is about 13.5 times heavier than water and hence a specific gravity of 13.546.
How do you find the density of mercury?
(Atomic mass of mercury = 200) Hint: Density is defined as mass of a unit volume of a material substance. The density formula is d = M / V, where d is density, M is mass, and the volume is V.
What is the density of mercury in standard form?
Mercury (element)
| Mercury | |
|---|---|
| Melting point | 234.3210 K (−38.8290 °C, −37.8922 °F) |
| Boiling point | 629.88 K (356.73 °C, 674.11 °F) |
| Density (near r.t. ) | 13.534 g/cm3 |
| Triple point | 234.3156 K, 1.65×10−7 kPa |
What is the density of mercury 1000k K m3?
Relative density of mercury = 13600 Kgm-3/1000 kg m-3 = 13.6.
What is the density of mercury in kg L?
Assume that 1.000 l of mercury is equal to 1000 ml = 1.000 dm^3 = 1000 cm^3. 13.6 g / cm^3 = 13.6 kg / dm^3 = 13.6 kg / l = 13.6 g / ml = 13600 g / dm^3 = 13600 g / l.
What is the specific gravity of mercury if it has a density of 13.6 g mL?
| Substance | Density (g/mL) |
|---|---|
| Water | 1.00 |
| Gold | 19.3 |
| Mercury | 13.6 |
What is the density of mercury in SI unit?
The relative density of mercury is 13.6 . Its density in S.I. unit is given as X × 10^3 kg m^-3 .
What is the density of mercury 13600 kg m3?
How do you convert density to specific gravity?
Converting a specific gravity into a density is as simple as multiply the SG by the reference density for which it was based. In most cases, this is the density of water, and therefore your multiply the SG by 1 to yield your density in g/cm^3.
