The answer depends on what you want to find out about it!
You need to specify the units of mass and volume.
Just divide the mass by the volume.
Just divide the mass by the volume.
Mass = sg * volume = 0.82 * 50 kg = 41 kg
Density = Mass/Volume = 50/(4*4*4) = 50/64 = 0.78125 grams per cm3.
the mass is the 50 grams you probably need the volume volume = mass / density get the density from tables
You cannot associate weight with volume without knowing the density. If you find this out, then Density is mass/volume
You need to specify the units of mass and volume.
The density of pyrite is about 5 g/cm³. To find the mass of the pyrite, you can use the formula: mass = density x volume. Therefore, in this case, the mass of the pyrite would be 50 grams.
To find the density of a liquid, you must find its mass and volume. To find the mass, use a triple beam balance, put the liquid into a container, weigh it, subtract the weight of the container, and that is how to get the mass. Then, to find the volume, use a graduated cylinder, put the liquid into the container, and then find the mark where the liquid line lands, and that is your volume. Then, divide your mass by your volume, and there is your density in grams per centimeter cubed (g/cm3).
Just divide the mass by the volume.
To find the mass of 50 mL of water, you would multiply the volume of water (50 mL) by the density of water, which is about 1 gram per milliliter. Therefore, the mass of 50 mL of water would be approximately 50 grams.
"The volume of 50 mg solid which occupies a volume of 0.00064 litres?" it is not a question.
Any substance with a density of 2.7 grams per cm3. Aluminium and Al alloys have a density of around 2.7 gcm-3
The density of the substance is calculated by dividing the mass (50 g) by the volume (75 mL). Density = mass/volume. Therefore, the density of the substance is 0.67 g/mL.
To find the mass of Cu in a solution, you would first need to know the concentration of Cu in the solution in units like molarity (mol/L) or mass/volume percentage. Once you have the concentration, you can use it to calculate the mass of Cu by multiplying the concentration by the volume of the solution (50 mL in this case). Remember to convert the volume to liters if the concentration is in molarity.
Just divide the mass by the volume.