Density = Mass / Volume Rearranging this gives: Volume = Mass / Density Mass = Density × Volume
volume = mass/density and density = mass/volume
density=mass/volume volume=mass/density
You have to know two out of three ... mass, volume, density ... then you can find the missing one. If density is missing . . . Density = (mass)/(volume) If mass is missing . . . Mass = (density) x (volume) If volume is missing . . . Volume = (mass)/(density)
Density = mass/volume Mass = Density x volume Volume = mass/density
The dimensions of a Kleenex box are length, width and height. The volume of the box is equivalent to length times width times height.
Density = mass/volume density = 6/2 density =3g/cm3
The density of the box can be calculated by dividing the mass (27g) by the volume (3ml). So, the density would be 9 g/ml.
The density of the plastic box can be calculated by dividing its mass by its volume. In this case, the density would be 12.9g / 15cm^3 ≈ 0.86 g/cm^3.
Rectangle
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high density have more matter per unit of volume (a box with a lot of circles) low has fewer matter per unit volume (a box with less circles)
A Kimberly Clark Kleenex box of 125 sheets of 2 ply tissues is 0.58 lbs which is 263 grams.
The density of the box is calculated by dividing the mass by the volume. In this case, the density would be 5g/125cm^3 = 0.04 g/cm^3.
The density of the box of sand is 30 grams per cubic centimeter (g/cm3). This is calculated by dividing the mass (6000 grams) by the volume (200 cm3).
To convert the volume of a 3-dimensional box listed in centimeters to kilograms, you will need the density of the material the box is made of. Calculate the volume of the box in cubic centimeters (length x width x height), then convert this volume to cubic meters by dividing by 1,000,000. Finally, multiply the volume in cubic meters by the density of the material in kilograms per cubic meter to get the mass in kilograms.