m3
The GCF of m2, m3, and m4 is m2.
19m^3=19mmm
M6 - 81 = M6 - 92 = (M3 - 9)(M3 + 9) [difference of two squares]
All integers have 1 as a factor.
m3
The GCF of m2, m3, and m4 is m2.
If you convert the dimensions to meters, then when you calculate volume, you will get m3. Then use the conversion factor 1 m3 = 1000 L, so multiply by 1000 (L/m3). Or you can take the measurement in centimeters, then 1 cm3 = 1 mL = 0.001 L, so multiply by 0.001 (L/cm3).
To convert stowage factor to density, use the formula: Density = 1 / Stowage Factor. This will give you the density of the material in metric tons per cubic meter. For example, if the stowage factor is 0.5 m3/ton, the density would be 2 tons/m3.
As ratio is 1 : 2 : 4, there are 1 + 2 + 4 = 7 parts in totalTherefore 1 part is 1 m3 ÷ 7 = 1/7 m3cement : sand : gravel = 1 : 2 : 4→ 1 x 1/7 m3 : 2 x 1/7 m3 : 4 x 1/7 m3 =1/7 m3 ≈ 0.14 m3 cement;2/7 m3 ≈ 0.29 m3 sand;4/7 m3 ≈ 0.57 m3 gravel[mortar and concrete is mixed by volume.]
19m^3=19mmm
M6 - 81 = M6 - 92 = (M3 - 9)(M3 + 9) [difference of two squares]
11 kg = 1 m3 = 1 L
1 dam3 = 10m*10m*10m = 1000 m3.
The volume of condensates formed by 1 m3 of steam depends on the specific heat capacity and the thermal conditions of the system. Generally, when steam condenses, it reduces in volume by a factor of roughly 1600, so 1 m3 of steam would condense into approximately 0.000625 m3 (or 0.625 liters) of water.
m3 is a cubic meter. It is the volume equivalent of a cube 1 meter wide by 1 meter deep by 1 meter tall. 1 m3 is equivalent to 1000 liters.
There are 1000 liters in 1 m3.