The specific gravity of gold is 19.3
The mass will be 3.28*19.3 = 63.304 grammes.
Gold.Explanation: Gold has a higher density than water.This means, the value of Mass/volume for gold is more than that of water.Here, the volume is same for both the substances. Then, for the density to vary, the mass should vary because volume is the same. As gold as a higher density, it has more mass than water for the same volume of the substance.
43L of 18-k gold
19.3
Density = Mass / Volume Rearranging this gives: Volume = Mass / Density Mass = Density × Volume
You mean a volume of 30 ml and mass of 579 g. Its s density = mass/volume = 579/30 = 19.3 g/ml which is very heavy. It could be several choices, but GOLD is that density...
The nugget of gold has a volume of 2.6 cm3, and the nugget of pyrite has a volume of 10 cm3.
The answer depends on what characteristic of the gold nugget you wish to measure: its mass, weight, volume, density, temperature, electrical conductivity, etc.
With the information given, the density of your nugget is about 19.29 g/cc. The density of gold is given as about 19.3 g/cc, so your nugget fits the density requirements for it to be a gold nugget.
Assuming the gold nugget is solid and pure (unlikely in real life!) The volume of the nugget is 77.0 - 50.0 mL = 27.0 mL So density = mass/volume = 521/27.0 = 19.3 g per mL.
lump, mass, gold, rock
YUPP... if you have a chicken nugget and a gold nugget, they can both have the same mass but the gold nugget is going to weigh one heck of a lot more. (my dad told me this so you betcha its right.)
A small nugget is one that you can only pick up with two fingers , approx .2gm. The holtermans is not a nugget but a mass of gold.
yes
The larger piece will probably have more mass than the smaller one. But if the wood is of the same type and "all things are equal" as regards moisture content, sap content, etc., the density of both pieces of wood will be the same. Density does not depend on the size of a sample. Density is mass per unit of volume. If a large gold nugget and a small gold nugget are compared, the larger nugget will have more mass, but both nuggets will have the same density.
Your "gold" nugget weighs 371 grams. It displaces 19.3 ml of water. The 19.3 ml of water is 19.3 cc of water. (Water weighs 1 gram per cubic cemtimeter.) You have a nugget that weighs 371 grams and has a volume of 19.3 cc. Let's see how much a cubic centimeter weighs by dividing the weight by the volume. 371 g / 19.3 cc = 19.2 g / 1 cc = 19.2 grams per cubic centimeter. As gold has a specific gravity of about 19.3, that means that it is 19.3 times as heavy as an equal volume of water. Water weighs 1g/cc and the nugget weighs 19.2g/cc, so it looks like the nugget may very well be gold. It certainly has about the right density. Remember that a gold nugget isn't pure gold. Its gold content can vary because there is always a bit of silver and/or copper as an alloy in the nugget. And the percent of gold will vary from the high 90's to the low 80's or even less, in some cases.
The Holterman Nugget was found in Hill End in NSW on 19 October, 1872. It was the largest single nugget ever discovered anywhere, although strictly speaking, it was not really a single nugget but rather a mass of gold found in a reef.
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