To find the Volume: (1) find the flat area (A = Pi*R²), (2) multiply the Area by the Depth/Height (V = AD). To find how much water the vessel will hold: water = 231 cu inches per gallon, or 7.481 gal per cu ft.
1. Fill a vessel with a liquid (water) until it is brim full. 2. Place the lacrosse ball into the liquid until it is fully submerged, displacing the liquid. 3. Catch the displaced liquid in another container, and measure its volume with a measuring cylinder.
You can't get it directly, as one is a measure of volume and the other of mass. Net Tonnage is a measure of volume of a ship, more precisely the volume of a ship that's useful for carrying cargo and passengers. So, essentially you take the internal volume of the ship and remove the volume of the fuel, engine spaces, crew quarters and so on. 100 cubic feet is the volume used for calculating net and gross registered (GRT) tonnage of a ship. Dead weight tonnage is the actual weight of what a ship can carry. To get this, you take the displacement of a fully loaded ship and then subtract from that the displacement of it when totally empty. And since displacement is actually the amount of water displaced by a vessel, it corresponds to the actual weight of the ship.
vessel length (ft.) multiplied by vessel width (ft.) divided by 15
it is the clock wise angle in radian or degree from heading of vessel to a straight line drawn from the station on the vessel to the object.
Brett Skapinetz has an enormous cranium. The volume of this gargantuan human head will be measured by Archimedes principle once a large enough vessel is found to submerge it into. His cranium is so large that several recent lottery winners have opted to have the equivalent of his head filled with nickels instead of the grand prize
how do calculate the volume of a Vertical vessel in m3/hr?
You wll also need to know its radius as well as its volume
funny shaped vessel not comical
funny shaped vessel not comical
funny shaped vessel not comical
use Archimedis' law- take a known volume of water in a vessel filled upto the brim and immerse the object that you want to measure the volume inside the vessel without giving any pressure and measure the volume of the water overflowed. that will give you the volume of the object(an approximate value)
Throw them all into a suitably sized measuring vessel marked with volumes and measure the amount of water they displace.
If you know the temperature, pressure and volume of the vessel, you can calculate the amount of moles through the Ideal gas law. PV = nRT That is assuming you have ideal conditions. If not, a variance of the ideal gas law can be used in order to get the moles of your gas.
Depends on the shape of the vessel. Different shape, different formula.
You can use a graduated cylinder or a pipette of 50 mL.
If 5 L is 1/3, 15 L is all of it.
You simply calculate it like a cone, but the height of the cone is the height to the top of the FILLED part, not all the way. Half-filled is not enough information . . . there can be "half filled" meaning half the height of the cone, but can also be "half filled" meaning half the volume of the cone.