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In [[geometry]], '''curve sketching''' (or '''curve tracing''') includes techniques that can be used to produce a rough idea of overall shape of a [[plane curve]] given its equation without computing the large numbers of points required for a detailed plot. It is an application of the theory of curves to find their main features.
 
==Basic techniques==
The following are usually easy to carry out and give important clues as to the shape of a curve:
*Determine the ''x'' and ''y'' intercepts of the curve. The ''x'' intercepts are found by setting ''y'' equal to 0 in the equation of the curve and solving for ''x''. Similarly, the ''y'' intercepts are found by setting ''x'' equal to 0 in the equation of the curve and solving for ''y''
*Determine the symmetry of the curve. If the exponent of ''x'' is always even in the equation of the curve then the ''y''-axis is an axis of [[Reflection symmetry|symmetry]] for the curve. Similarly, if the exponent of ''y'' is always even in the equation of the curve then the ''x''-axis is an axis of symmetry for the curve. If the sum of the degrees of ''x'' and ''y'' in each term is always even or always odd, then the curve is [[Rotational symmetry|symmetric about the origin]] and the origin is called a ''center'' of the curve.
*Determine any bounds on the values of ''x'' and ''y''.
*If the curve passes through the origin then determine the tangent lines there. For algebraic curves, this can be done by removing all but the terms of lowest order from the equation and solving.
*Similarly, removing all but the terms of highest order from the equation and solving gives the points where the curve meets the [[line at infinity]].
*Determine the [[asymptote]]s of the curve. Also determine from which side the curve approaches the asymptotes and where the asymptotes intersect the curve.<ref>Hilton Chapter III §2</ref>
 
==Newton's diagram==
'''Newton's diagram''' (also known as ''Newton's parallelogram'', after [[Isaac Newton]]) is a technique for determining the shape of an algebraic curve close to and far away from the origin. It consists of plotting (α,&nbsp;β) for each term ''Ax''<sup>α</sup>''y''<sup>β</sup> in the equation of the curve. The resulting diagram is then analyzed to produce information about the curve.
 
Specifically, draw a diagonal line connecting two points on the diagram so that every other point is either on or to the right and above it. There is at least one such line if the curve passes through the origin. Let the equation of the line be ''q''α+''p''β=''r''. Suppose the curve is approximated by ''y''=''Cx<sup>p/q</sup>'' near the origin. Then the term ''Ax''<sup>α</sup>''y''<sup>β</sup> is approximately ''Dx''<sup>α+βp/q</sup>. The exponent is ''r/q'' when (α,&nbsp;β) is on the line and higher when it is above and to the right. Therefore, the significant terms near the origin under this assumption are only those lying on the line and the others may be ignored it produce a simple approximate equation for the curve. There may be several such diagonal lines, each corresponding to one or more  branches of the curve, and the approximate equations of the branches may be found by applying this method to each line in turn.
 
For example, the [[folium of Descartes]] is defined by the equation
:<math>x^3 + y^3 - 3 a x y = 0 \,</math>.
Then Newton's diagram has points at (3,&nbsp;0), (1,&nbsp;1), and (0,&nbsp;3). Two diagonal lines may be drawn as described above, 2α+β=3 and α+2β=3. These produce
:<math>x^2 - 3 a y = 0 \,</math>
:<math>y^2 - 3 a x = 0 \,</math>
as approximate equations for the horizontal and vertical branches of the curve where they cross at the origin.<ref>Hilton Chapter III §3</ref>
 
==The analytical triangle==
[[Jean Paul de Gua de Malves|de Gua]] extended Newton's diagram to form a technique called the '''analytical triangle''' (or ''de Gua's triangle''). The points (α,&nbsp;β) are plotted as with Newton's diagram method but the  line α+β=''n'', where ''n'' is the degree of the curve, is added to form a triangle which contains the diagram. This method considers all lines which bound the smallest convex polygon which contains the plotted points (see [[convex hull]]).<ref>Frost Chapter IX</ref>
 
==See also==
* [[Parent function]]
 
==References==
{{reflist}}
*{{cite book |title=Plane Algebraic Curves|first=Harold|last=Hilton|publisher=Oxford|year=1920
|chapter=Chapter III: Curve-Tracing|url=http://www.archive.org/stream/cu31924001544216#page/n56/mode/1up}}
*{{cite book |title=An Elementary Treatise on Curve Tracing|first=Percival|last=Frost
|publisher=MacMillan|year=1918
|url=http://www.archive.org/details/elementarytreati00fros}}
 
==External links==
*{{springer|title=Newton diagram|id=N/n066520|last=Trenogin|first=V.A.}}
 
[[Category:Curves]]

Revision as of 20:25, 25 January 2014

In geometry, curve sketching (or curve tracing) includes techniques that can be used to produce a rough idea of overall shape of a plane curve given its equation without computing the large numbers of points required for a detailed plot. It is an application of the theory of curves to find their main features.

Basic techniques

The following are usually easy to carry out and give important clues as to the shape of a curve:

  • Determine the x and y intercepts of the curve. The x intercepts are found by setting y equal to 0 in the equation of the curve and solving for x. Similarly, the y intercepts are found by setting x equal to 0 in the equation of the curve and solving for y
  • Determine the symmetry of the curve. If the exponent of x is always even in the equation of the curve then the y-axis is an axis of symmetry for the curve. Similarly, if the exponent of y is always even in the equation of the curve then the x-axis is an axis of symmetry for the curve. If the sum of the degrees of x and y in each term is always even or always odd, then the curve is symmetric about the origin and the origin is called a center of the curve.
  • Determine any bounds on the values of x and y.
  • If the curve passes through the origin then determine the tangent lines there. For algebraic curves, this can be done by removing all but the terms of lowest order from the equation and solving.
  • Similarly, removing all but the terms of highest order from the equation and solving gives the points where the curve meets the line at infinity.
  • Determine the asymptotes of the curve. Also determine from which side the curve approaches the asymptotes and where the asymptotes intersect the curve.[1]

Newton's diagram

Newton's diagram (also known as Newton's parallelogram, after Isaac Newton) is a technique for determining the shape of an algebraic curve close to and far away from the origin. It consists of plotting (α, β) for each term Axαyβ in the equation of the curve. The resulting diagram is then analyzed to produce information about the curve.

Specifically, draw a diagonal line connecting two points on the diagram so that every other point is either on or to the right and above it. There is at least one such line if the curve passes through the origin. Let the equation of the line be qα+pβ=r. Suppose the curve is approximated by y=Cxp/q near the origin. Then the term Axαyβ is approximately Dxα+βp/q. The exponent is r/q when (α, β) is on the line and higher when it is above and to the right. Therefore, the significant terms near the origin under this assumption are only those lying on the line and the others may be ignored it produce a simple approximate equation for the curve. There may be several such diagonal lines, each corresponding to one or more branches of the curve, and the approximate equations of the branches may be found by applying this method to each line in turn.

For example, the folium of Descartes is defined by the equation

x3+y33axy=0.

Then Newton's diagram has points at (3, 0), (1, 1), and (0, 3). Two diagonal lines may be drawn as described above, 2α+β=3 and α+2β=3. These produce

x23ay=0
y23ax=0

as approximate equations for the horizontal and vertical branches of the curve where they cross at the origin.[2]

The analytical triangle

de Gua extended Newton's diagram to form a technique called the analytical triangle (or de Gua's triangle). The points (α, β) are plotted as with Newton's diagram method but the line α+β=n, where n is the degree of the curve, is added to form a triangle which contains the diagram. This method considers all lines which bound the smallest convex polygon which contains the plotted points (see convex hull).[3]

See also

References

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  1. Hilton Chapter III §2
  2. Hilton Chapter III §3
  3. Frost Chapter IX