density = mass / volume Given mass = 240 g = 240*10^-3 kg volume = 200 mL = 200*10^-6 m^3 Hence density = 1.2*10^3 kg/m^3 Or 1200 kg/m^3
The molar volume of a gas at STP (standard temperature and pressure) is 22.4 L/mol. To calculate the molar mass of the gas, you can use the formula: Molar mass = (mass of gas / volume of gas) x molar volume at STP. In this case, with a mass of 60g and a volume of 5.6 dm3, the molar mass would be 60g/5.6dm3 x 22.4L/mol = 240 g/mol. Vapour density is calculated as 2 x molar mass, so in this case the vapour density would be 480 g/mol.
The weight of sugar depends on its density, but roughly 240 mL of sugar weighs about 200-220 grams.
Grams can't be converted to cups. Grams measure mass, while cups measure volume.
1 8 fluid ounce cup = 236.588237 ml. The density of water is nearly 1 gram/ml. So 1 cup of water has a mass of 236.588237 grams. Note that the mass unit of ounce (16 ounces in a pound) is not the same as the fluid ounce (volume unit).
density = mass / volume Given mass = 240 g = 240*10^-3 kg volume = 200 mL = 200*10^-6 m^3 Hence density = 1.2*10^3 kg/m^3 Or 1200 kg/m^3
density = mass / volume Given mass = 240 g = 240*10^-3 kg volume = 200 mL = 200*10^-6 m^3 Hence density = 1.2*10^3 kg/m^3 Or 1200 kg/m^3
D=M/V D=240/200 D=1.2 you should include units though. I'm not sure what units you used, which is why i didn't write them.
The molar volume of a gas at STP (standard temperature and pressure) is 22.4 L/mol. To calculate the molar mass of the gas, you can use the formula: Molar mass = (mass of gas / volume of gas) x molar volume at STP. In this case, with a mass of 60g and a volume of 5.6 dm3, the molar mass would be 60g/5.6dm3 x 22.4L/mol = 240 g/mol. Vapour density is calculated as 2 x molar mass, so in this case the vapour density would be 480 g/mol.
240% of 200 = 240% * 200 = 2.4 * 200 = 480
First, find the total mass of the solution by multiplying the density (1.13 g/mL) by the volume (240 mL). This gives 271.2 g. Now, calculate the percent concentration of CaCl2 in the solution by dividing the mass of CaCl2 (1.20 g) by the total mass of the solution (271.2 g) and multiplying by 100. The percent w/w concentration of the solution is approximately 0.44%.
'milligrams' is a measure of mass/weight. 'millilitres is a measure of liquid volume. You need to know the density of the substance in order to compare grams and litres.
240
No exact value but you can know the mass of liquid from this relation Denisty=Mass/volume so the mass=Volume*Density ,,, this is the weight of milk you can add the weight of the glass but you must first weigh it on a balance.
The weight of sugar depends on its density, but roughly 240 mL of sugar weighs about 200-220 grams.
8.33 gm/cmΒ³
The GCF is 40.