For a cylinder, the cross section is a circle, so the area will be pi r2 (r is the radius of the cylinder).
The volume therefore will be V = pi r2h where h is the height of the cylinder.
Area of the base x the height.
Find the area of the circular base (pi x r2), then multiply it by the height.
The area of the base is in square inches, or square centimetres.
The volume of the cylinder is in cubic inches, or cubic centimetres.
You compute the area of the cross section (a circle), then multiply the result with the cylinder's height.
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Volume of a cylinder = pi*(radius)2*(height) where pi = 22/7
Volume of a cylinder = pi*radius2*height
Pour it into a graduated cylinder and read off the volume.
Volume in cubic feet = cross-section area*length
Volume = (height)(area base)
Volume of cylinder: base squared times length
v=l*b
Volume of a cylinder = pi*radius2*height in cubic units
Volume of a cylinder in cubic units = piradius2height
The diameter, alone, is not enough to find the volume of a cylinder. You need the height as well. > Where pi = 3.1416, and d = cylinder diameter cylinder volume = pi * (d/2)2 * length of cylinder
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Density = Mass/Volume, correct. However, with a cylinder, you have to find the volume. In order to find the volume of a cylinder use the equation PiR2 * H where "R" is the radius (Diameter/2) squared.
Volume of a cylinder = pi*(radius)2*(height) where pi = 22/7
First find the area of the cylinder's base, and multiply that by the height. For V = A x h. Volume, Area, height.
Graduated cylinder
You Find the Hieght of the cylinder
Volume=(pi)(radius^2)(height)