The formula for calculating the volume of a cylinder is v = hΠr2
h = 12m, r = 50m, Π = 3.142
v = 12m x 3.142 x 502m2
v = 94260m3 or 94,260,000 litres
The formula for calculating the volume of fluid to the fluid container in which it is located. For example. If the container is cylindrical. Area x height = volume of liquid
Volume = cross-section area*length
Volume = cross-sectional area times height
Flatworms have a higher surface area/volume ratio compared to a cylindrical worm, this is one of the reasons for flatworms to have the structure they do.
The volume of a stone or any irregular solid non-porous object can be determined by placing the object slowly into a container filled with water up to the very top. The water that runs over the edge of the container must be collected and measured in another container, such as a cylinder type or rectangular/square shape from which a square area can be calculated to determine the displaced volume of water.
The formula for calculating the volume of fluid to the fluid container in which it is located. For example. If the container is cylindrical. Area x height = volume of liquid
Not the volume is important but the area exposed to evaporation.
Volume = Area of cross section x height
Volume = cross-section area*length
Volume = cross-sectional area times height
Flatworms have a higher surface area/volume ratio compared to a cylindrical worm, this is one of the reasons for flatworms to have the structure they do.
Biggest surface area to volume ratio.
A cylindrical protist has a higher surface are to volume ratio. This is because of the physical properties of spheres (some rather complicated math proves that spheres hold the most volume for their area).
The volume of a stone or any irregular solid non-porous object can be determined by placing the object slowly into a container filled with water up to the very top. The water that runs over the edge of the container must be collected and measured in another container, such as a cylinder type or rectangular/square shape from which a square area can be calculated to determine the displaced volume of water.
Put an amount of water in a container of known cross-sectional area (eg a rectangular tank or a cylindrical tank) that is deeper than the object to measure.Mark where the water comes to.Put in the object of unknown volume so that it is completely submerged in the water.Measure the rise in water.Multiply the rise by the cross-sectional water to get the object's volume.Alternatively:Fill a container to the brim with waterCompletely submerge the object in the water and collect all the displaced water in a measuring device.Read the volume of water spilled (displaced) out of the container which is the same as the volume of the object.
surface area of triangle times the width/height of container.
length: ruler volume: i dont know the name of this process. put it into a container with certain amount of water and measure the increase of water level. the volume is the base area of the container multiplies the increase of water level temperature: thermometer mass: balance (most preferably an electronic one)