A liter equals 1dm³ in volume. Since 50dm³ are 50000cm³, a cuboid with the dimensions 50cm * 50cm* 20cm would fit as well as a tube of 1m height and 25.23cm diameter.
You are missing a measurement to obtain volume. A height it going to be needed.
A 35 gallon drum is equivalent to 132.49 liters. Which is also equivalent to 4,448 ounces, most commonly 280 pounds.
Flagons come in different sizes, so there is no standard answer as to how many liters one will hold. There are certain places in the world in which a flagon does hold a standard amount of fluid, typically two liters, but for the most part the size varies.
Yes, always for all mixtures.Interestingly, the volume of the solution may not equal the volume of the two things before being mixed -- even for mixing two liquids.
WaterConcreteDirtNatural gasGrainPetrol
It can hold 12 liters of water.
The formula is: [ Volume = 0 ].A 'plane figure' has no volume. That's any figure that you can draw on paper,and those can't hold water. It takes volume to hold water, and volume takesthree dimensions.
Volume is two dimensional and no area can hold 25 gallons of water, however 25 gallons is a volume. Do you mean what dimensions would hold 25 gallons?
A pool with a volume of 157.00 cubic feet can hold a maximum of about 1,174.4 US gallons (977.9 UK gallons) or 4,445.7 liters.
No, a glass of water cannot hold less than 0.9 liters. The volume of a glass is fixed, and it cannot hold less than its capacity.
A cube with a volume of 8.61 cubic feet can hold 244 liters.
9 liters
I can hold 20 liters of water.
40 liters
Volume in quarts, cups, or liters. Mass in lbs or kg,
This question does not make sense because a liter is a unit of volume and a kilometer is a distance unit. Assuming that the question should have been "how many liters can a kiloliter tank hold", the answer is 12,500 liters because each kiloliter has a volume of 1,000 liters.
In order to find the volume of the cylinder more information is required as to the actual dimensions of the cylinder. Volume is calculated by knowing the radius and height of the cylinder.