Input interpretation
convert 12 kg of sulfur (chemical element) to volume
Results
6.122 L (liters)
Possible intermediate steps
Convert from kilograms into liters: 12 kg of S (sulfur) Convert from kilograms to cubic centimeters using the relation 1000 g (grams) = 1 kg (kilogram) and the density 1.96 g/cm^3 (grams per cubic centimeter) at STP of S: (12 kg)/1 × (1000 g)/(1 kg) × (1 cm^3)/(1.96 g) = 6122 cm^3 Convert to milliliters using the relation 1 cm^3 (cubic centimeter) = 1 mL (milliliter): (6122 cm^3)/1 × (1 mL)/(1 cm^3) = 6122 mL Convert to liters using the relation 1000 mL (milliliters) = 1 L (liter): Answer: | | (6122 mL)/1 × (1 L)/(1000 mL) = 6.122 L
Unit conversions
0.006122 m^3 (cubic meters)
6122 cm^3 (cubic centimeters)
12.94 pints
6.47 quarts
1.617 gallons
0.2162 ft^3 (cubic feet)
373.6 in^3 (cubic inches)
Comparisons as volume
≈ (1.06 to 1.15) × volume of a soccer ball ( 5310 to 5792 cm^3 )
≈ volume of blood in a typical human ( ≈ 5 L )
≈ 1.4 × volume of a American NFL football ( ≈ 259 in^3 )
Comparisons as volume of food or beverage
≈ 2 × volume of a US size 10 can ( 105 fl oz )
≈ 3.7 × volume of a US size 5 can ( 7 cups )
≈ 6.5 × volume of a US size 3 can ( 4 cups )
Interpretations
volume
volume of food or beverage
capacity
section modulus
Basic unit dimensions
![[length]^3](../image_source/8564529b818e3b6ff0a59e1ae5014df9.png)
[length]^3
Corresponding quantities
Radius r of a sphere from V = 4πr^3/3: | 11 cm (centimeters) | 0.37 feet | 4.5 inches
Edge length a of a cube from V = a^3: | 18 cm (centimeters) | 0.6 feet | 7.2 inches
Mass m of water from m = ρ_(H_2O)V: | 6.1 kg (kilograms) | 13 lb (pounds) | (assuming maximum water density ≈ 1000 kg/m^3)
Molecule number N of water from N = ρ_(H_2O)V/m_(H_2O): | 2.047×10^26 molecules | (assuming maximum water density ≈ 1000 kg/m^3) | (assuming molecular mass of water ≈ 18.02 u)