10 ml
== == * a snow petrel weighs 454 grams * a can of baked beans weighs 420 grams
Its mass is 15.00 grams. the volume has nothing to do with a commodity if its weight or mass is given in grams or any other units of mass, say pounds, kilograms, tons etc. Anil K Arora....anilarora50@gmail.com
1 ounce of butter (weight) = 28.35 grams butter is about 99.5% pure fat (some milk solids or proteins) so 28.20 grams of fat 1 ounce (US) of butter (volume) = 29.6 ml = 2 tbs @ a density of .865 grams/ml weighs 25.6 grams so 25.47 grams of fat or 12.735 grams per tablespoon 1 ounce (BI) of butter (volume) = 28.35 ml = 2 Tbs @ density of .865 g/ml weighs 24.523 grams so 24.40 grams of fat or 12.20 grams per tablespoon
If the specific gravity of the what is being measured is equal to 1 then the both the weight and the volume will have the same numeric value. But on earth 50ml is equal to 1cm3 and 1L is approx. 1kg so 50ml is equal to 50g not 50 mg
The density is 16/5 grams per some unknown unit of volume - not a particularly useful measure of anything!The density is 16/5 grams per some unknown unit of volume - not a particularly useful measure of anything!The density is 16/5 grams per some unknown unit of volume - not a particularly useful measure of anything!The density is 16/5 grams per some unknown unit of volume - not a particularly useful measure of anything!
Some items that weigh approximate to 31 grams of gold include a grown-up honeybee, a sugar cube, or a typical AAA battery.
It depends on what you are measuring. grams is a weight measure and cups are a volume measure. 500 grams of flour is ~4 cups 500 grams of sugar is ~ 2 3/4 cups 500 grams of water is ~ 2 1/8 cups
Fill a beaker with water, and weigh it. Weigh a sample of the mineral. That's the mass of the mineral. Put the sample in the beaker and weigh that. The weight of the water-filled beaker plus the weight of the mineral sample will be greater than the weight of the beaker with mineral sample and water. The difference is the weight of the displaced water, in grams. The volume of the mineral sample, in cubic centimeters is equal to the weight of the displaced water, in grams. Calculate the specific gravity of the mineral by dividing the weight of the mineral sample by the volume of the mineral sample. Example: your beaker weighs 40 grams. Filled with water, it's 1040 grams. The sample of mineral weighs 160 grams. The beaker with the sample of mineral and water weighs 1179.7 grams. The mineral, and the beaker with water would have a combined weight of 1200 grams, but the beaker with mineral and water weighs 20.3 grams less than that, so the mineral sample is displacing 20.3 cubic centimeters of water. Given a mass of 160 grams and a volume of 2.03 CC, the specific gravity would be found by dividing 160 by 20.3. It's 7.85. (Which happens to be the specific gravity of some iron.)
Volume.
I know why a lemon floats on water: the weight of a lemon is less than that of an equal volume of water. Let's throw some numbers out here, although they're ones I just made up to show you what's happening: 100 milliliters of water weighs 100 grams. The lemon you have has a total volume of 120 milliliters, but it weighs 100 grams. When you put the lemon in the water, it will displace 100 milliliters of water, gaining equilibrium. Since the lemon's volume is 120 milliliters, 20 milliliters of it are going to be out of the water. In other words, it will float. If the weight of the lemon was 100 grams and the lemon's volume was 100 milliliters, the whole lemon would be underwater since the displacement and the weight would be the same. And if the weight was 120 grams but the volume 100 milliliters, the lemon would sink since the water wouldn't be able to support the weight of the lemon.
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.
Some items that weigh between 700-900 grams include laptops, tablets, textbooks, and small household appliances.