Neither.
1 gram is a measure of mas while 10 cm3 is a measure of volume. The two measure different things and, according to elementary dimensional analysis, comparisons between the two are not valid.
10g of air at normal temperature and pressure will occupy a lot more space than 10 cm3. On the other hand 10 gram of iron will occupy a lot less space.
100 g / 10cm^3 = 10g/cm^3
density = mass ÷ volume = 30 g ÷ 10 cm3 = 3 g/cm3
0.4 m3 equals (0.4*10^3) dm3, which equals (0.4*10^6) cm3 = 400 000 cm3 ~NajN
10g = 0.022 (0.0220462) lbs.
12 cm3 is bigger.
Density is mass/volume. For a rectangular block, the volume is [width x height x length].Assuming you meant 10 cm for width, instead of 10g, then:Volume = (10 cm)*(2 cm)*(10 cm) = 200 cm3Density = mass/volume = (200 g)/(200 cm3) = 1 g/cm3
first of all its should be cm3 or ml 10g/10.8ml = 0.9259 g/ml
100 g / 10cm^3 = 10g/cm^3
Determine the density of the sand. Determine the mass of the sand, and it's volume. Divide the mass by the volume and that gives you density. Then divide the sand's density by the density of water. That will give you the specific gravity of the sand. Because you divide densities, the units cancel out, and specific gravity does not have any units. For example, you determine the density of the sand to be 10g/cm3, and the density of pure water is known to be 1g/cm3. Divide 10g/cm3 by 1g/cm3. The g/cm3 cancel, and you are left with just the number 10. So in this example the specific gravity of sand is 10.
Diameter = 5 cm so volume = 4/3*Ï€*(d/2)3 = 65.45 cm3 Then density = 10/64.45 = 0.1528 grams per cm3
10g stands for 10 grams.
12 cm3
.10g/cm3
They are the exact same amount.
1 cm3= 1 ml so 10,000 cm3= 10,000 mL = 10 Litres.1 cm3= 1 ml so 10,000 cm3= 10,000 mL = 10 Litres.1 cm3= 1 ml so 10,000 cm3= 10,000 mL = 10 Litres.1 cm3= 1 ml so 10,000 cm3= 10,000 mL = 10 Litres.
The density of the outer core is between the 10g/cm³ and 12,3g/cm³.
10 000 cm3