Cylinder (geometry)


Cylinder (geometry)

Cylinder (geometry)

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Cylinder (geometry)

A right circular cylinder

A cylinder is one of the most basic curvilinear geometric shapes: the surface formed by the points at a fixed distance from a given straight line, the axis of the cylinder. The solid enclosed by this surface and by two planes perpendicular to the axis is also called a cylinder. The surface area and the volume of a cylinder have been known since deep antiquity.

In differential geometry, a cylinder is defined more broadly as any ruled surface spanned by a one-parameter family of parallel lines. A cylinder whose cross section is an ellipse, parabola, or hyperbola is called an elliptic cylinder, parabolic cylinder, or hyperbolic cylinder. A prism is a cylinder whose cross-section is a polygon.

Contents

[] Common usage

In common usage, a cylinder is taken to mean a finite section of a right circular cylinder with its ends closed to form two circular surfaces, as in the figure (right). If the cylinder has a radius r and length (height) h, then its volume is given by

V = \pi r^2 h \,

and its surface area is:

  • the area of the top ( \pi r^2 )\, +
  • the area of the bottom ( \pi r^2 )\, +
  • the area of the side ( 2 \pi r h )\,.

Therefore without the top or bottom (lateral area), the surface area is

A = 2 \pi r h.\,

With the top and bottom, the surface area is

A = 2 \pi r^2 + 2 \pi r h = 2 \pi r ( r + h ).\,

For a given volume, the cylinder with the smallest surface area has h = 2r. For a given surface area, the cylinder with the largest volume has h = 2r, i.e. the cylinder fits in a cube (height = diameter.)

[] Cylindric section

Cylindric sections are the intersections of cylinders with planes. Although these mostly yield ellipses (or circles), a degenerate case of two parallel lines, known as a ribbon, can also be produced, and it is also possible for there to be no intersection at all.[1]


[] Other types of cylinders

An elliptic cylinder

An elliptic cylinder is a quadric surface, with the following equation in Cartesian coordinates:

\left(\frac{x}{a}\right)^2 + \left(\frac{y}{b}\right)^2 = 1.

This equation is for an elliptic cylinder, a generalization of the ordinary, circular cylinder (a = b). Even more general is the generalized cylinder: the cross-section can be any curve.

The cylinder is a degenerate quadric because at least one of the coordinates (in this case z) does not appear in the equation.

An oblique cylinder has the top and bottom surfaces displaced from one another.

There are other more unusual types of cylinders. These are the imaginary elliptic cylinders:

\left(\frac{x}{a}\right)^2 + \left(\frac{y}{b}\right)^2 = -1

the hyperbolic cylinder:

\left(\frac{x}{a}\right)^2 - \left(\frac{y}{b}\right)^2 = 1

and the parabolic cylinder:

x^2 + 2ay = 0. \,

[] Trivia

  • The volume of the cylinder is 3 times the volume of a cone with equal radius and equal height.

[] References

  1. ^ "MathWorld: Cylindric section".

[] See also

A right circular cylinder

A cylinder is one of the most basic curvilinear geometric shapes: the surface formed by the points at a fixed distance from a given straight line, the axis of the cylinder. The solid enclosed by this surface and by two planes perpendicular to the axis is also called a cylinder. The surface area and the volume of a cylinder have been known since deep antiquity.

In differential geometry, a cylinder is defined more broadly as any ruled surface spanned by a one-parameter family of parallel lines. A cylinder whose cross section is an ellipse, parabola, or hyperbola is called an elliptic cylinder, parabolic cylinder, or hyperbolic cylinder. A prism is a cylinder whose cross-section is a polygon.

Contents

[] Common usage

In common usage, a cylinder is taken to mean a finite section of a right circular cylinder with its ends closed to form two circular surfaces, as in the figure (right). If the cylinder has a radius r and length (height) h, then its volume is given by

V = \pi r^2 h \,

and its surface area is:

  • the area of the top ( \pi r^2 )\, +
  • the area of the bottom ( \pi r^2 )\, +
  • the area of the side ( 2 \pi r h )\,.

Therefore without the top or bottom (lateral area), the surface area is

A = 2 \pi r h.\,

With the top and bottom, the surface area is

A = 2 \pi r^2 + 2 \pi r h = 2 \pi r ( r + h ).\,

For a given volume, the cylinder with the smallest surface area has h = 2r. For a given surface area, the cylinder with the largest volume has h = 2r, i.e. the cylinder fits in a cube (height = diameter.)

[] Cylindric section

Cylindric sections are the intersections of cylinders with planes. Although these mostly yield ellipses (or circles), a degenerate case of two parallel lines, known as a ribbon, can also be produced, and it is also possible for there to be no intersection at all.[1]


[] Other types of cylinders

An elliptic cylinder

An elliptic cylinder is a quadric surface, with the following equation in Cartesian coordinates:

\left(\frac{x}{a}\right)^2 + \left(\frac{y}{b}\right)^2 = 1.

This equation is for an elliptic cylinder, a generalization of the ordinary, circular cylinder (a = b). Even more general is the generalized cylinder: the cross-section can be any curve.

The cylinder is a degenerate quadric because at least one of the coordinates (in this case z) does not appear in the equation.

An oblique cylinder has the top and bottom surfaces displaced from one another.

There are other more unusual types of cylinders. These are the imaginary elliptic cylinders:

\left(\frac{x}{a}\right)^2 + \left(\frac{y}{b}\right)^2 = -1

the hyperbolic cylinder:

\left(\frac{x}{a}\right)^2 - \left(\frac{y}{b}\right)^2 = 1

and the parabolic cylinder:

x^2 + 2ay = 0. \,

[] Trivia

  • The volume of the cylinder is 3 times the volume of a cone with equal radius and equal height.

[] References

  1. ^ "MathWorld: Cylindric section".

[] See also