There is no density that can be derived from a volume unless you know what material fills the volume. The volume in this case is 8 cc's.
What is the density of a rectangular object with the height of 5 cm the length of 10 cm, the width of 2 cm and the mass of 50 g
density = mass/volume volume = 2cm x 2cm x 2cm = 8 cm^3 density = 16 grams / 8 cm^3 = 2 grams/cm^3
12, cause 2 times 3 =6 times 2=12 cm
So the answer is 2.447357008 x10 -03 g/cm cubed. Explanation: a) 5.54 cm times 10.6 cm times 199 cm = 11686.076 (volume= length times width times height) b) density = mass/volume so 28.6 divided by 11686.076 = 2.447357008 x10 -03
density = mass / volume = 72 g / 36 cm³ = 2 g/cm³
44.16g density times volume
the density of an object that is 10 cm by 2 cm and has a mass 400g will be 10000 Kg m-3. This can be calculated by the formula, density = mass/volume
The density of this hypothetical metal will be 155,8 g/cm3.
Any object which, if submerged, would displace 2 times its own volume. The density of the object could be well above 2 gms/cm^3. If that were not the case, then ships made of metal would never float in water. which has a much lower density.
What is the density of a rectangular object with the height of 5 cm the length of 10 cm, the width of 2 cm and the mass of 50 g
density = mass/volume volume = 2cm x 2cm x 2cm = 8 cm^3 density = 16 grams / 8 cm^3 = 2 grams/cm^3
It is 5.497 grams per cubic cm.
Assuming the volume is in cubic cm and not cm(!), Density = Mass/Volume = 56g/28cm3 = 2 grams per cm3
The density of a material is defined as its mass per unit volume, density = m/v (mass/volume) One unit for this is grams/cm3. The weight is 12 g, and the volume is: v = 3 cm x 2 cm x 1 cm = 6 cm3 plugging in: density = m/v = 12 g/6cm3 = 2 g/cm3
12, cause 2 times 3 =6 times 2=12 cm
2.7 g/cm³ ÷ 25365.4 cm ≈ 0.000106 g/cm² (converting a density into a pressure?)
The density is 2 g/cm3