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).
d = m/v therefore v=m/d * v = 2500.0 grams / 10.5 g/cm cubed * v = 238.1 cm cubed (one sig dig) * "The volume of silver metal that will have a mass of 2500.0 grams is 238.1 cm cubed."
Density = Mass/Volume = 13.6 g/cm3
Density = Mass/Volume = 17/4 = 4.25 grams per cm3
Density = Mass/Volume = 600/30 = 20 grams per ml.
To calculate the volume of the silver metal, divide the mass by the density. Volume = mass / density = 2500 g / 10.5 g/cm^3 = 238.1 cm^3. Therefore, 2500 g of silver metal will have a volume of 238.1 cm^3.
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).
d = m/v therefore v=m/d * v = 2500.0 grams / 10.5 g/cm cubed * v = 238.1 cm cubed (one sig dig) * "The volume of silver metal that will have a mass of 2500.0 grams is 238.1 cm cubed."
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Gold is heavier than silver. Gold has a higher density compared to silver, which means that for the same volume of metal, gold will weigh more than silver.
Divide the mass by the volume to calculate its density. If its density isn't the same as an equal amount of pure silver, the coin has some other metal in it.The density test can be fooled if the coin was adulterated with other metals that average out to the same density as silver, however.
Density is the mass of the object divided by its volume. By this principle, to determine the density of a metal, place the metal onto a scale to measure its mass. After this, place the metal into a beaker of water and measure the volume change in the beaker. Divide the mass by the volume and you get the density.