2300 gold
19.3
15,000 g / 193 gcm3 = 77,7202 cm3
The density of the shiny, gold-colored bar of metal is 12.19 grams over cubic centimeters. The density of a Gold(Au) is 19.3 grams over cubic centimeters. These means that the gold-colored bar of metal is not pure gold.
I'm not sure if you understand: 1mL is a way of measuring volume in metric, which can't be converted to mass. You might be able to find out what the mass of 1 mL of gold is by determining the density of that liquid. Density is usually expressed as g/mL. Then you merely do the math to detemine the grams of gold which would be the mass. For example, if the density of this gold liquid is 5.5 g/ml, then you know that the liquid contained 5.5 grams of gold - which would then be the mass of the gold.
5 grams of gold is in 5 grams of gold dust
19.3
15,000 g / 193 gcm3 = 77,7202 cm3
The density of gold is 19.30 grams per cubic centimeter.
it actually gold because Lead has a density of about 11.3 grams per cc, Gold has a density of about 19.3 grams per cc, so for a given volume, gold is much heavier than lead.
Gold's weight depends on the size and shape of the piece of gold. Its density is 19.3 grams per cubic centimeter.
The Density near r.t. Is: 19.30 g·cm−3 And the Liquid density at m.p. Is: 17.31 g·cm−3 Don't know the lbft3, perhaps somebody else can improve this answer.
The density of the shiny, gold-colored bar of metal is 12.19 grams over cubic centimeters. The density of a Gold(Au) is 19.3 grams over cubic centimeters. These means that the gold-colored bar of metal is not pure gold.
Density is calculated by mass divided by volume. Mass is therefore calculated by density multiplied by volume. Make sure your units are compatible - 1L - 1000 cm3 So, gold statue's mass is 19.3 g/cm3 x 1700 cm3 = and sand's mass is 3.00 g/cm3 x 1700 cm3 =
Volume = Mass / Density, so 100 grams of gold divided by 19.3 g/mL gives a volume of 5.18 mL or 5.18 cubic centimeters. 5.18 mL of gold will displace 5.18 mL of water.
You use the density of copper, which is 8.96 g/cm cubed. Therefore 50 cm cubed would weigh 50 x 8.96 g = 44.8 g.
One cubic centimeter of gold has more mass than 2 cubic centimeters of copper. Gold has a density of 19.3 grams per cubic centimeter, while copper has a density of 8.94 grams per cubic centimeter so, two cubic centimeters of copper has mass of 17.9 grams, which is less than 19.3 grams of gold.
I'm not sure if you understand: 1mL is a way of measuring volume in metric, which can't be converted to mass. You might be able to find out what the mass of 1 mL of gold is by determining the density of that liquid. Density is usually expressed as g/mL. Then you merely do the math to detemine the grams of gold which would be the mass. For example, if the density of this gold liquid is 5.5 g/ml, then you know that the liquid contained 5.5 grams of gold - which would then be the mass of the gold.