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Volume of a cylindrical tank in cubic units: pi*radius2*height
The height of this quantity of water would be exactly that much!
Volume = cross-sectional area times height
543
There are 12 cylindrical cans in a package. Each can has a height of 4.9 in. and a diameter of 2.5 in. What is the approximate total volume of the 12 cans?
Volume of a cylindrical tank in cubic units: pi*radius2*height
Capacity of the container = (pi) x (radius of the round end)2 x (height of the cylinder). That's the capacity of the container. If the volume of the fluid in it is really what you want, then you can use the same formula, but instead of the full height of the container, use only the height of the fluid column, i.e. what we professionals would technically refer to as the "depth".
A cylindrical tower with a diameter of 10 feet and a height of 30 feet has a volume of: 2,360 cubic feet.
Volume = pi*radius2*height
Height does not affect capacity.
A cylinder has a diameter and a perpendicular height and cylindrical in shape.
The height of this quantity of water would be exactly that much!
A cylindrical paint can has a diameter of 12 centimeters and a height of 16 centimeters. Which isclosestto the volume of the paint can in cubic centimeters?
Volume = cross-sectional area times height
543
It's a bit complicated but works: Capacity is 'C' C= 1/12 πH(a^2+ab+b^2) Key: H= Height a= width accros the top of the pot b= width across the bottom of the pot π= Pi ^2= Squared
There are 12 cylindrical cans in a package. Each can has a height of 4.9 in. and a diameter of 2.5 in. What is the approximate total volume of the 12 cans?