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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
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.
A precision balance would be the best tool to measure the density of a small piece of silver ore. Weigh the sample accurately on the balance, then calculate the density by dividing the mass by the volume of the sample.
To determine the identity of the sample, you would need the density of the material it is made of. Density is calculated by dividing mass by volume (density = mass/volume). Without this information, it is not possible to accurately determine the identity of the sample.
First, convert the volume from cubic inches to cubic centimeters: 43.5 in^3 = 713.2 cm^3. Then, calculate the mass using the formula: mass = volume x density. So, mass = 713.2 cm^3 x 10.5 g/cm^3 = 7484.2 grams. Finally, convert grams to kilograms: 7484.2 g ÷ 1000 = 7.4842 kg.
No, the density of a substance is independent of the size or shape of the object. As long as the material is the same, the density remains constant. So, the density of a small solid silver chunk will be the same as that of a large solid silver brick.
The mass of lead would be greater, as lead has a higher density compared to silver. Density is mass divided by volume, so even if both samples have the same volume, the lead sample would be heavier due to its higher density.
Lead has a greater density than silver. Lead has a density of 11.34 g/cm3, while silver has a density of 10.49 g/cm3.
You can determine if a coin is not pure silver by calculating its density using the formula density = mass/volume. Compare this calculated density to the known density of pure silver (10.5 g/cm3). If the calculated density does not match the density of pure silver, then the coin is not pure 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.
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.
To calculate the amount of pure silver in the sample, multiply the mass of the ore by the percentage of silver: 0.53 grams * 5.4% = 0.02862 grams of silver. To convert grams to milligrams, multiply by 1000: 0.02862 grams * 1000 = 28.62 milligrams of pure silver in the sample.
You can calculate the density of the silver by dividing its mass by its volume. The density of pure silver is known, so comparing the calculated density to the known value can help determine if the sample is pure silver.