-- Volume of a sphere = 4/3 x (pi) x (radius)3
-- Volume of a cylinder = (pi) x (radius)2 x (length)
The only relationship I can see is that they both involve (pi).
Actually seeing the relationship between the volumes of a cone (one-third of a cylinder) and a sphere (two-thirds of a cylinder) is hard to beat. The cylinder is 1/3 the volume of the cone
the relationship between them is that they are use in many ways of living
He discovered the relationship between a sphere and a circumscribed cylinder of the same height and diameter. The volume is 4⁄3πr3 for the sphere, and 2πr3 for the cylinder. The surface area is 4πr2 for the sphere, and 6πr2 for the cylinder (including its two bases), where r is the radius of the sphere and cylinder. The sphere has a volume and surface area two-thirds that of the cylinder. A sculpted sphere and cylinder were placed on the tomb of Archimedes at his request.
A sphere has 0 vortex and a cylinder has 2 faces
A sphere and a cylinder are different shapes. A sphere is like a ball, and a cylinder is like a can.
A cylinder is shaped like the empty inner cardboard of a toilet roll, whilst a sphere is shaped like a football [soccer, not American fb].
They are all 3D geometric shapes.
. A cylinder is similar to a prism, but its two bases are circles, not polygons.While The sphere is a space figure having all its points an equal distance from the center point.
4/3 *PI* r3 The formula was first derived by Archimedes, who showed that the volume of a sphere is 2/3 that of a circumscribed cylinder.
A spectacular landmark in the history of mathematics was the discovery by Archimedes (287-212 B.C.) that the volume of a solid sphere is two- thirds the volume of the smallest cylinder that surrounds it, and that the surface area of the sphere is also two-thirds the total surface area of the same cylinder.
There are different formulae depending on whether the shape is a sphere, a cylinder or something else.
sphere has 1 face and no vertex and it rolls but cone has 2 faces and it can roll and it has 1 vertex