Want this question answered?
To calculate the number of quarters of milk needed to fill a 2-litre jug, we need to know the volume of 1 quarter. Assuming the standard volume of a quarter of milk is 1 liter, we can then determine that we would need 2 quarters of milk to fill a 2-liter jug.
Volume
use calculus and integrate or fill it with water and measure.
The capacity or volume.
To calculate the volume of water needed to fill a rectangular pool, multiply the length, width, and depth together. Assuming the depth is 4 feet, the volume of this pool would be 48 ft x 24 ft x 4 ft = 4,608 cubic feet of water.
A. Calculate the volume of the truck. B. Calculate the volume of an individual carton Divide A by B
the number of cubic units to fill an object is called its volume
To calculate the number of quarters of milk needed to fill a 2-litre jug, we need to know the volume of 1 quarter. Assuming the standard volume of a quarter of milk is 1 liter, we can then determine that we would need 2 quarters of milk to fill a 2-liter jug.
The volume of a of a 3-d object is the number of cubic needed to fill the object.
Volume
use calculus and integrate or fill it with water and measure.
The capacity or volume.
The volume required to fill a 720-litre tank is going to be (720 litres) minus (amount in the tank before you began filling it)
To calculate the volume of water needed to fill a rectangular pool, multiply the length, width, and depth together. Assuming the depth is 4 feet, the volume of this pool would be 48 ft x 24 ft x 4 ft = 4,608 cubic feet of water.
The number of cubic units to fill a sphere is its volume. Volume of a sphere: 4/3 times pi times radius^3
To calculate the volume of an irregular object you will need a container with meaurements and water. Place the irregular object in your container and fill with water until the entire object is covered. Record volume A. Then remove the irregular object and record volume B. The volume of your irregulare object is equal to volume A minus volume B.
MFT = V(mold/ cavity volume) / Q (Volumetric Flow Rate)