The density of a wood is 0.72g/cm3 what will be the mass off the wood with measures 30cm101010?
Density = mass/volume Mass = (density) x (volume) Volume = mass/density
Density = mass/volumeMass = (density) x (volume)Volume = mass/density
Density is measure as mass/volume. As with any matter, the density of chalk would require: 1. a measurement of its mass 2. a measurement for its volume. Mass can be measures on a scale in kg. Chalk's shape also makes it calculable for volume (in metres). If it is cylindrical, measure the height and the radius, then solve for V = (pi)(r^2)h. Divide the mass by that volume and find its density in kg/m^3.
since density equal to mass/volume then mass=density times volume mathematically mass=density *volume
Density = Mass / Volume Mass = Density * Volume Volume = Mass / Density
density= mass/volumedensity
Mass = Volume*density PROVIDED those measures are in comparable units.
Mass, density, volume, hardness etc.
NO It measures matter
density=mass divided by the volume 12g divided by 27 the volume = 0.4
Density = Mass / Volume. There is not an instrument that will measure both so you will need to measure them separately and calculate the density.
You do the Mass of the object then, divide the Volume away from it.
well density measures how much an object is by its size and you calculate it by finding the mass then volume.Then you divide the two answers then whatever answer you get,you round it to the nearest tenths
Density is mass/volume, which is a ratio of mass per unit of volume. The SI derived unit for density is kg/m3, but in chemistry it is measured primarily in g/cm3 or g/mL. 1cm3 = 1mL.
You need to know the density o f Mg D = Mass/Volume Mass = Density * volume Density= 1.74 grams per cubic centimeter Volume = 2.5 * 3.5 * 1.5 Mass = Density * volume
Mass is related to volume by density. Density (D) is the quantity of mass (M) divided by its volumetric space (V). The relationship is the basis for the equation of D = M/V.
density=mass/volumem=12,2 gV=2x4x3=24cm3density=12,2g/24cm3=......that´s your term, kid!