This is easy if a gas. The weight of a volume of 22.41 L will give the molecular mass.
Firstly, calculate the molecular volume by dividing the product of molecular density and the molecular weight by the Avogadro number. Then take a third root of the volume, the found value is the atomic radius. Then multiply it by 2 to find the diameter.
weight = mass * gravitational constant. Newtons (weight) = kg * m / sec^2 for instance.
You know the molarity and you know the volume. First off you find the moles. Molarity divided by 1000, multiplied by the volume in cm^3. Then you multiply the moles by the molecular mass of the solute, to get the weight in grams.
Use the compounds density.
The "specific Volume" of a substance is its volume per unit mass, measured in cubicmeters per kilogram. NT: to find density of any substance is the reciprocal of its specific volume. : density = 1/specific vol. kg/m3(unit)
The flow rate is simply the volume moved in a specific time; divide the volume by the time.
Firstly, calculate the molecular volume by dividing the product of molecular density and the molecular weight by the Avogadro number. Then take a third root of the volume, the found value is the atomic radius. Then multiply it by 2 to find the diameter.
Volume = mass / specific gravity. Units are cubic centimeters and grams or cubic meters and tonnes. s.g. has no units : it is a dimensionless quantity.
Stand it on a circular end, like a tin can standing on a shelf.Its volume is the area of its circular base, multiplied by its height.Another Answser:To answer the specific question, you can not find the volume of a cylinder when given only its diameter. You need also its length.
weight = mass * gravitational constant. Newtons (weight) = kg * m / sec^2 for instance.
Molarity = Grams/(Molecular Weight X Volume)
You know the molarity and you know the volume. First off you find the moles. Molarity divided by 1000, multiplied by the volume in cm^3. Then you multiply the moles by the molecular mass of the solute, to get the weight in grams.
Use the compounds density.
Volume = pi*r2*h
Volume = mass / density
By comparing the volume given to each figure.
Multiply them: density*volume = mass