The specific gravity of diamond is 3.5, which is above average, so yes, a diamond is heavy for its size.
Yes. Its specific gravity is 3.52±0.01, meaning that is that much more dense than water, which is the base for specific gravity -- or weight. You can find comparitive stones on the chart, below.
specific gravity of acetone is 0.79
The specific gravity of a product can be found on the material
The specific gravity of a substance is the ration of its density to some standard, almost always water for liquids or solids. In this case, Feldspar has a specific gravity of about 2.6.
The specific gravity of diamond is 3.52 +/- 0.1 g/cm3.
The specific gravity of diamond is 3.5, which is 'above average'.
Diamond has the specific gravity of 3.5, which is above average.
No. Diamond has a specific gravity of 3.6, which is above average. Morganite, which is a beryl gem, has a specific gravity of 2.8.
The specific gravity of diamond is 3.5, which is above average.
3.52 > tolerance: ±0.01
The specific gravity of diamond is 3.5, which is above average, so yes, a diamond is heavy for its size.
No. The specific gravity of lead is 11.35 and the specific gravity of diamond is 3.5, which is above average, but not heavier than lead.
Specific gravity is the same as density, so if anything except diamondis used then the density would be changed
Gold is heavier than diamond. Diamonds have a specific gravity of 3.51. Gold has a specific gravity of 19.32.
Yes. Its specific gravity is 3.52±0.01, meaning that is that much more dense than water, which is the base for specific gravity -- or weight. You can find comparitive stones on the chart, below.
There is no such thing as a specific gravity for any element.