A sphere and a cylinder are different shapes. A sphere is like a ball, and a cylinder is like a can.
No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3
If the sphere has radius r and the cylinder has radius d then the rise in water level will be 4/3(pi r3) / (pi d2) which simplifies to (4 r3) / (3 d2).
Volume can only be measured in 3 dimensions. This formula is used to find the space in a sphere, cone, cube, cylinder, prism, or other such object.
mars is a sphere and is rough
"An asteroid is a piece of moon that orbits the sun and a moon is a giant rock sphere that orbits earth."
They are both 3D shapes and use pi in calculating area or volume
A cylinder looks like a piece of pipe. A sphere looks like a ball.
Yes, because a cylinder has lines and a sphere is round. Yes a cylinder has a circle but it does has lines also. But a circle has no vertexes. And a cylinder has a vertexes.
A cylinder 3 faces compared to one and a sphere is fully round unlike a cylinder which has a flat bootom and top.
Formula for calculating the area of sphere is : 4 * pi * r * r
A sphere is the shape of a ball, and a cylinder is like a tin can; rounded at the middle but with two flat surfaces at the top and bottom.
A cylinder is more of a tube with flat circles on each end. A sphere is like a basketball, baseball, soccer ball, etc.
The cylinder is a measure of the astigmatism correction for each eye. Eyes that have astigmatism actually require lenses with two different focal powers. The two different powers are represented by the Sphere and Cylinder. The axis represents the orientation of the sphere power.
A cylinder is a round object with two flat ends, like a paper towel roll. A sphere is completely round, like a ball.
rectangular prism,cube,cylinder,sphere,pyramid
rectangular prism,cube,cylinder,sphere,pyramid
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.