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Weight is not measured in grams: the basic SI unit for weight is Newtons. It is therefore assumed that the silver needs to weigh 2500.0 Newtons. Weight = Mass*g = Mass*9.8 where g is the acceleration due to gravity (in metres per sec2). So Mass = Weight/9.8 = 2500.0/9.8 = 255.1020 kilograms = 225102.0 grams Now Density = Mass/Volume so Volume = Mass/Density = 255102.0/10.5 cubic centimetres = 24295.43 cc (approx).
0.016kg = 16g Density = Mass/Volume 16g/9.27cm = 1.726g/cm3
Depends on the size of the bar. There is no "standard" size of a silver bar, there are silver bars ranging anywhere from 1 gram to bars to many hundred kilograms. The most common size is 1 troy ounce which is worth ~$31 at current silver prices.
Volume = Mass/Density = 25000 g / 10.5 g cm-3 = 2381 cm3 approx.
With a temperature of T = 293 K. Lead: 11.3 103 kg m-3 Silver: 10.50 103 kg m-3
The mass is 262 g.
you can get the volume by using the density formula, since density of silver is a constant and given thing. density= mass/volume volume=mass/density.
The first reference I consulted on line lists the density of gold as 19.32 gm/cm3,whereas the density of your sample is 19.286 gm/cm3.
That depends. If the two different silver masses contain different impurities, then the answer is yes, but it would very only slightly so as to be almost negligible. In general, any two or more objects that are made up of the same substance have the exact same density. The size of the sample is not a factor of its density (assuming the size increase is not due to heat), since density = mass/volume.
You can calculate density with the formula density = mass/volume. The density of pure silver is 10.49 g/mL or 10.49 g/cm3. Of course silver is frequently alloyed so the density of the alloy may be a bit different - but probably still somewhat close to the density of pure silver since it should be mostly silver.
The density of silver is 10490 kg/m3. You need to have a piece of silver for it to have a mass or volume.
In ounces.
you could do a density test. If you measure the mass of the object and divide it by the volume (displacement test would be easiest) then you have calculated the density. the density of silver is 10.49 so if you get something close to this then it is silver.
Approx 28.6 grams.
The density of silver is 10.49 g/cm3.
Weight is not measured in grams: the basic SI unit for weight is Newtons. It is therefore assumed that the silver needs to weigh 2500.0 Newtons. Weight = Mass*g = Mass*9.8 where g is the acceleration due to gravity (in metres per sec2). So Mass = Weight/9.8 = 2500.0/9.8 = 255.1020 kilograms = 225102.0 grams Now Density = Mass/Volume so Volume = Mass/Density = 255102.0/10.5 cubic centimetres = 24295.43 cc (approx).
The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.