Area: Difference between revisions
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Area is the derivative of volume. |
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[[da:Areal]] [[de:Fläche]] [[ja:面積]] [[nl:oppervlakte]] |
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#REDIRECT [[Surface area]] |
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'''Area''' is a [[quantity]] expressing the size of a region of [[space]]. '''Surface area''' refers to the summation of the exposed sides of an [[object]]. Area is the [[derivative]] of [[volume]]. |
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== Units == |
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Units for measuring surface area include: |
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:[[square metre]] - [[SI derived unit]] |
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:[[are]] - 100 square metres |
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:[[hectare]] - 10,000 square metres |
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:[[square kilometre]] - 1,000,000 square metres |
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Old [[British]] units, as currently defined from the metre: |
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:square [[foot]] (plural feet) - 0.09290304 square meters. |
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:square [[yard]] - 9 square feet - 0.83612736 square metres |
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:square [[perch]] - 30.25 square yards - 25.2928526 square metres |
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:[[acre]] - 160 square perches or 43,560 square feet - 4046.8564224 square metres |
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:[[square mile]] - 640 acres - 2.5899881103 square kilometres |
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The article [[Orders of magnitude]] links to lists of [[orders of magnitude (area)|objects of comparable surface area]]. |
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== Some formulas == |
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For a two dimensional object the area and surface area are the same: |
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*square or rectangle: <b>''l × w ''</b> (where l is the length and w is the width; in the case of a square, l = w. |
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*[[circle]]: <B>'' [[pi|π]]×r<SUP>2</SUP>''</B> (where r is the radius) |
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*any [[regular polygon]]: <B>''P × a / 2''</B> (where P = the length of the perimeter, and a is the length of the apothem of the polygon [the distance from the center of the polygon to the center of one side]) |
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*a [[parallelogram]]: <B>''B × h''</B> (where the base B is any side, and the height h is the distance between the lines that the sides of length B lie on) |
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*a [[trapezoid]]: <B>''(B + b) × h / 2''</B> (B and b are the lengths of the parallel sides, and h is the distance between the lines on which the parallel sides lie) |
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*a [[triangle]]: <B>''B × h / 2''</B> (where B is any side, and h is the distance from the line on which B lies to the other point of the triangle). Alternatively, ''[[Heron's formula]]'' can be used: <b>''√(s×(s-a)×(s-b)×(s-c))''</b> (where a, b, c are the sides of the triangle, and s = (a + b + c)/2 is half of its perimeter) |
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*the area between the [[graph]]s of two functions is [[equality (mathematics|equal]] to the [[integral]] of one [[function]], ''f''(''x''), [[subtraction|minus]] the integral of the other function, ''g''(''x''). |
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Some basic formulas for calculating surface areas of three dimensional objects are: |
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*[[cube]]: <B>''6×(s<SUP>2</SUP>)'' </B>, where s is the length of any side |
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*[[rectangular box]]: <B>''2×((l × w) + (l × h) + (w × h))''</B>, where l, w, and h are the length, width, and height of the box |
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*[[sphere]]: <B>''4×π×(r<SUP>2</SUP>)'' </B>, where [[pi|π]] is the ratio of circumference to diameter of a circle, 3.14159..., and r is the radius of the sphere |
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*[[cylinder]]: <b>''2×π×r×(h + r)''</b>, where r is the radius of the circular base, and h is the height |
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*[[cone]]: <b>''π×r×(r + √(r<sup>2</sup> + h<sup>2</sup>))''</b>, where r is the radius of the circular base, and h is the height. |
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=== See also === |
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*[[Synthetic geometry]] |
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''An artist should feel free to add some example diagrams.'' |
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== Ill-defined areas == |
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If one adopts the [[axiom of choice]], then it is possible to prove that there are some shapes whose area cannot be meaningfully defined; see [[Lebesgue measure]] for more details. |
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== External Link == |
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*[http://www.ex.ac.uk/cimt/dictunit/ccarea.htm Conversion Calculator for Units of AREA] |
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Revision as of 00:34, 26 September 2003
Area is a quantity expressing the size of a region of space. Surface area refers to the summation of the exposed sides of an object. Area is the derivative of volume.
Units
Units for measuring surface area include:
- square metre - SI derived unit
- are - 100 square metres
- hectare - 10,000 square metres
- square kilometre - 1,000,000 square metres
Old British units, as currently defined from the metre:
- square foot (plural feet) - 0.09290304 square meters.
- square yard - 9 square feet - 0.83612736 square metres
- square perch - 30.25 square yards - 25.2928526 square metres
- acre - 160 square perches or 43,560 square feet - 4046.8564224 square metres
- square mile - 640 acres - 2.5899881103 square kilometres
The article Orders of magnitude links to lists of objects of comparable surface area.
Some formulas
For a two dimensional object the area and surface area are the same:
- square or rectangle: l × w (where l is the length and w is the width; in the case of a square, l = w.
- circle: π×r2 (where r is the radius)
- any regular polygon: P × a / 2 (where P = the length of the perimeter, and a is the length of the apothem of the polygon [the distance from the center of the polygon to the center of one side])
- a parallelogram: B × h (where the base B is any side, and the height h is the distance between the lines that the sides of length B lie on)
- a trapezoid: (B + b) × h / 2 (B and b are the lengths of the parallel sides, and h is the distance between the lines on which the parallel sides lie)
- a triangle: B × h / 2 (where B is any side, and h is the distance from the line on which B lies to the other point of the triangle). Alternatively, Heron's formula can be used: √(s×(s-a)×(s-b)×(s-c)) (where a, b, c are the sides of the triangle, and s = (a + b + c)/2 is half of its perimeter)
- the area between the graphs of two functions is equal to the integral of one function, f(x), minus the integral of the other function, g(x).
Some basic formulas for calculating surface areas of three dimensional objects are:
- cube: 6×(s2) , where s is the length of any side
- rectangular box: 2×((l × w) + (l × h) + (w × h)), where l, w, and h are the length, width, and height of the box
- sphere: 4×π×(r2) , where π is the ratio of circumference to diameter of a circle, 3.14159..., and r is the radius of the sphere
- cylinder: 2×π×r×(h + r), where r is the radius of the circular base, and h is the height
- cone: π×r×(r + √(r2 + h2)), where r is the radius of the circular base, and h is the height.
See also
An artist should feel free to add some example diagrams.
Ill-defined areas
If one adopts the axiom of choice, then it is possible to prove that there are some shapes whose area cannot be meaningfully defined; see Lebesgue measure for more details.