si si es cierto
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.)
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.
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.
On Earth, 1 troy ounce is the weight of 31.1034 grams of mass.
The mass of the 1.2 cm gold cube is (19.32 x 1.2) = 23.184 g
quantitative
First of all you should look up the density value of pure gold which happens to be 19.3 grams per mL.Then you compare this with the density value of this gold nugget and you'll find by calculation: 19.22 g/mL. (= 371 g/ 19.3 mL)The nugget is gold. Trust me, It's the correct answer on online homework
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.)
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.
The specific gravity of gold is 19.3 The mass will be 3.28*19.3 = 63.304 grammes.
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.
The nugget of gold has a volume of 2.6 cm3, and the nugget of pyrite has a volume of 10 cm3.
yes
The answer depends on what characteristic of the gold nugget you wish to measure: its mass, weight, volume, density, temperature, electrical conductivity, etc.
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.
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.