Density = Mass/Volume = 62.8/40 = 1.57 g/cm3.
density = mass/volume = 2g/40cm3 = 0.05g/cm3
Density = Mass/Volume so the density is 120/40 grams per cm3 = 3 grams per cubic cm.
stroke volume =end diastolic volume - end of systalic volume. But how to measure these volume i don't know?
volume as in TV volume or volume as in books. Answer 2 Volume often just means 'amount' as in 'a large volume of sales'. Also, the volume of a container is a measure of how much 'stuff' it can hold. The volume of a room is length x width x height. The volume of a sphere is 4/3 x pi x radius^3
Density = Mass/Volume = 62.8/40 = 1.57 g/cm3.
density = mass/volume = 2g/40cm3 = 0.05g/cm3
40cm3 equals 1.35 fluid ounces.
Density = Mass/Volume so the density is 120/40 grams per cm3 = 3 grams per cubic cm.
Iron pyrite (FeS2) has a density of 4.8 to 5.0 grams per cm3. A piece of volume 40 cm3 would, therefore have a mass of volume*density = 192 to 200 grams.
4 x 5 x 2 = 40cm3
A rectangular prism with a length of 4 cm, a width of 2 cm and a height of 5 cm has a volume of 40cm3
Easy. Density is equal to mass / volume (that's why you have a mass and volume unit g/cm3) So 11.34g/cm3 = 454g / volume and with basic algebra: 454g / 11.34g/cm3 = volume volume ~ 40.04cm3 or 40,035273368606701940035273368607cm3
It is necessary first to determine how many moles of chlorine there are in the volume specified. Using the ideal gas law, 40 cm3 of chlorine is equivalent to 0.129 grams of Cl2, or 3.63 millimoles. Next, the stoichiometric equation is set up. X H2 + Y Cl2 -- reacts --> Z HCl. It can be clearly seen that X = 1, Y = 1, and Z = 2. This means that for every mole of chlorine that reacts, 2 moles of hydrogen chloride is produced. Then, we have 7.26 millimoles of HCl. Reversing the ideal gas law, this means the resulting volume of HCl gas is .224 cm3. The reason for the smaller volume is due to the differences in the molar weight of chlorine and hydrogen chloride (70.906 g/mol and 36.461 g/mol respectively).
volumeVolume is the answer you seek.
Unless you are in a reality where nothing has to do with itself, volume has everything to do with volume as it is itself.
Mass = Density x Volume Density = Mass/Volume Volume = Mass/Density