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[[File:ConicSections.jpg|right]]
[[File:ConicSections.jpg|right]]
__TOC__
=====Description=====


A [https://en.wikipedia.org/wiki/Cone '''Cone'''] can be described as the '''[[Loci|Locus]]''' of all lines joining points on the circumference of a '''‘Base Circle’''' to a point, or '''‘Apex’''', above it.  If the Apex lies perpendicularly above the centre of the base circle it is known as a '''''‘right cone’''''' and if not, it is an '''''‘oblique cone’'''''.
A [https://en.wikipedia.org/wiki/Cone '''Cone'''] can be described as the '''[[Loci|Locus]]''' of all lines joining points on the circumference of a '''‘Base Circle’''' to a point, or '''‘Apex’''', above it.  If the Apex lies perpendicularly above the centre of the base circle it is known as a '''''‘right cone’''''' and if not, it is an '''''‘oblique cone’'''''.
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A right circular cone can be sliced across in various ways to produce a number of [https://en.wikipedia.org/wiki/Conic_section '''Conic Sections''']. These are curves with particular mathematical properties and which are used in engineering design - e.g. [[Displacement Diagram|cam profiles]] and [[Bridge Types|arch bridge]] design.
A right circular cone can be sliced across in various ways to produce a number of [https://en.wikipedia.org/wiki/Conic_section '''Conic Sections''']. These are curves with particular mathematical properties and which are used in engineering design - e.g. [[Displacement Diagram|cam profiles]] and [[Arch Variations|arch bridge]] design.




=====Constructions=====
{|
{|
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| <span style="color:#B00000">
| <span style="color:#B00000">
* The curve produced when a secton is taken across a right circular cone at an angle to the base circle, and intersecting the generators on both sides.
* The curve produced when a secton is taken across a right circular cone at an angle to the base circle, and intersecting the generators on both sides.
| [[File:Conics-ElipseTrans.png|350px|right]]  
* Ellipses are a ''closed curve'' with a ''Major Axis'' and a ''Minor Axis''.
* An Ellipse is also the result of taking a section across a [https://en.wikipedia.org/wiki/Cylinder_%28geometry%29 '''Cylinder'''] at at angle to its base.
* Ellipses describe the orbits of planets and the curve has been used to design [https://en.wikipedia.org/wiki/Arch Arch Bridges].
* Ellipses can be drawn as '''[[Loci]]''' with an '''[[Conics|Eccentricity]]''' of less than 1 ''(i.e. the Locus of all points where the ratio of distances from its '''[[Conics|Focus]]''' and '''[[Conics|Directrix]]''' are a constant which is less than 1)''   
| [[File:Conics-ElipseTrans.png|300px|right]]  
|-
|-
| '''[[Parabola]]'''
| '''[[Parabola]]'''
| <span style="color:#B00000">
| <span style="color:#B00000">
* The curve produced when a secton is taken through a right circular cone parallel to the generator
* The curve produced when a secton is taken through a right circular cone parallel to the generator.
| [[File:Conics-ParabolaTrans.png |350px|right]]  
* A Parabola describes the path taken by a object thrown into the air and the curve has been used to design [https://en.wikipedia.org/wiki/Arch Arch Bridges].
* Parabolas can be drawn as '''[[Loci]]''' with an '''[[Conics|Eccentricity]]''' equal to 1 ''(i.e. the Locus of all points where the ratio of distances from its '''[[Conics|Focus]]''' and '''[[Conics|Directrix]]''' are a constant which is equal to 1)''   
| [[File:Conics-ParabolaTrans.png |300px|right]]  
|-
|-
| '''[[Hyperbola]]'''
| [https://en.wikipedia.org/wiki/Hyperbola '''Hyperbola''']
| <span style="color:#B00000">
| <span style="color:#B00000">
* The curve produced when a secton is taken along a right circular cone parallel to the central Axis - note that with a Double Cone, two Hyperbolas are created.
* The curve produced when a secton is taken which cuts both parts of a Double Cone but does not pass through the Apex ''(e.g. parallel to Axis as shown)'' - note that with a Double Cone, two Hyperbolae are created.
| [[File:Conics-HyperbolaTrans.png|350px|right]]  
* Hyperbolae describe the paths taken by non-orbiting comets or the shadow cast on a sun dial for example.
* An Hyperbola can be drawn as a '''[[Loci|Locus]]''' with an '''[[Conics|Eccentricity]]''' greater than 1 ''(i.e. the Locus of all points where the ratio of distances from its '''[[Conics|Focus]]''' and '''[[Conics|Directrix]]''' are a constant which is greater than 1)''   
| [[File:Conics-HyperbolaTrans.png|300px|right]]  
|-
|-
| '''[[Circle]]'''
| '''[[Circles|Circle]]'''
| <span style="color:#B00000">
| <span style="color:#B00000">
* The curve produced when a secton is taken across a right circular cone parallel to the base circle.
* The curve produced when a secton is taken across a right circular cone parallel to the base circle.
| [[File:Conics-Circle.png |350px|right]]  
* The circle can be considered as a fourth type of conic section  ''(as it was by [https://en.wikipedia.org/wiki/Apollonius_of_Perga '''Apollonius'''])'' or as a special case of ellipse.
* The part of a cone ''(or [https://en.wikipedia.org/wiki/Pyramid_%28geometry%29 '''Pyramid'''])'' lying between two parallel planes such as this is called the [https://en.wikipedia.org/wiki/Frustum '''Frustrum''']
| [[File:Conics-Circle.png |300px|right]]  
|-
|-
| '''[[Triangle]]'''
| [https://en.wikipedia.org/wiki/Triangle '''Triangle''']
| <span style="color:#B00000">
| <span style="color:#B00000">
* Included for completeness, triangles are created when a section is taken through the Apex and parallel to the central Axis.
* Included for completeness, triangles are created when a section is taken through the Apex and across the Base Cicle diameter.
| [[File:Conics-TriangleTrans.png|350px|right]]  
* Either an [https://en.wikipedia.org/wiki/Isosceles_triangle '''Isosceles'''] or [https://en.wikipedia.org/wiki/Equilateral_triangle '''Equilaterial Triangle'''] is revealed when a Right Cone is halved in this way. Other triangles would result from similar sectioning of an Oblique Cone. 
| [[File:Conics-TriangleTrans.png|300px|right]]  
|}
|}
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[[Category:Secondary]]
[[Category:Secondary]]
[[Category:Geometry]]
[[Category:Geometry]]

Latest revision as of 18:55, 2 June 2016

ConicSections.jpg


Description

A Cone can be described as the Locus of all lines joining points on the circumference of a ‘Base Circle’ to a point, or ‘Apex’, above it. If the Apex lies perpendicularly above the centre of the base circle it is known as a ‘right cone’ and if not, it is an ‘oblique cone’.


A right circular cone is a Solid of Revolution and can be produced by rotating a right angle triangle around one of the sides opposite its hypotenuse. The hypotenuse generates the surface of a cone as it sweeps round the central ‘Axis’. Any line joining the Apex to the Base Circle is known as a ‘Generator’. Generators can continue through the Apex to produce a second cone opposite to the first, creating a ‘Double Cone,’ and each Cone could extend beyond he Base Circles to infinity.


A right circular cone can be sliced across in various ways to produce a number of Conic Sections. These are curves with particular mathematical properties and which are used in engineering design - e.g. cam profiles and arch bridge design.


Constructions
Ellipse
  • The curve produced when a secton is taken across a right circular cone at an angle to the base circle, and intersecting the generators on both sides.
  • Ellipses are a closed curve with a Major Axis and a Minor Axis.
  • An Ellipse is also the result of taking a section across a Cylinder at at angle to its base.
  • Ellipses describe the orbits of planets and the curve has been used to design Arch Bridges.
  • Ellipses can be drawn as Loci with an Eccentricity of less than 1 (i.e. the Locus of all points where the ratio of distances from its Focus and Directrix are a constant which is less than 1)
Conics-ElipseTrans.png
Parabola
  • The curve produced when a secton is taken through a right circular cone parallel to the generator.
  • A Parabola describes the path taken by a object thrown into the air and the curve has been used to design Arch Bridges.
  • Parabolas can be drawn as Loci with an Eccentricity equal to 1 (i.e. the Locus of all points where the ratio of distances from its Focus and Directrix are a constant which is equal to 1)
Conics-ParabolaTrans.png
Hyperbola
  • The curve produced when a secton is taken which cuts both parts of a Double Cone but does not pass through the Apex (e.g. parallel to Axis as shown) - note that with a Double Cone, two Hyperbolae are created.
  • Hyperbolae describe the paths taken by non-orbiting comets or the shadow cast on a sun dial for example.
  • An Hyperbola can be drawn as a Locus with an Eccentricity greater than 1 (i.e. the Locus of all points where the ratio of distances from its Focus and Directrix are a constant which is greater than 1)
Conics-HyperbolaTrans.png
Circle
  • The curve produced when a secton is taken across a right circular cone parallel to the base circle.
  • The circle can be considered as a fourth type of conic section (as it was by Apollonius) or as a special case of ellipse.
  • The part of a cone (or Pyramid) lying between two parallel planes such as this is called the Frustrum
Conics-Circle.png
Triangle
  • Included for completeness, triangles are created when a section is taken through the Apex and across the Base Cicle diameter.
  • Either an Isosceles or Equilaterial Triangle is revealed when a Right Cone is halved in this way. Other triangles would result from similar sectioning of an Oblique Cone.
Conics-TriangleTrans.png


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