Algebraic geometry: Difference between revisions

Revision as of 14:24, 6 December 2007

As the name suggests, algebraic geometry is the study of geometric objects defined by algebraic equations. For example, a parabola, such as all solutions $(x,y)$ of the equation $y-x^{2}=0$ , is one such object, whereas the graph of the exponential function---all solutions $(x,y)$ of the equation $y-e^{x}=0$ ---is not. The key distinction is that the equation defining the first example is a polynomial equation, whereas the second cannot be represented by polynomial equations, even implicitly. In fact, in the present context, a reasonable and useful first approximation of the adjective algebraic would be defined by polynomials. --Holger Kley 13:23, 6 December 2007 (CST)

Revision as of 14:23, 6 December 2007 (view source) imported>Holger Kley (A few introductory sentences; perhaps the start of a project.) ← Older edit		Revision as of 14:24, 6 December 2007 (view source) imported>Holger Kley No edit summary Newer edit →
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	As the name suggests, algebraic geometry is the study of geometric objects defined by algebraic equations. For example, a parabola, such as all solutions <math>(x,y)</math> of the equation <math>y - x^2 = 0</math>, is one such object, whereas the graph of the exponential function---all solutions <math>(x,y)</math> of the equation <math>y - e^x = 0</math>---is not. The key distinction is that the equation defining the first example is a polynomial equation, whereas the second cannot be represented by polynomial equations, even implicitly. In fact, in the present context, a reasonable and useful first approximation of the adjective ``algebraic'' is ''defined by polynomials.''		As the name suggests, algebraic geometry is the study of geometric objects defined by algebraic equations. For example, a parabola, such as all solutions <math>(x,y)</math> of the equation <math>y - x^2 = 0</math>, is one such object, whereas the graph of the exponential function---all solutions <math>(x,y)</math> of the equation <math>y - e^x = 0</math>---is not. The key distinction is that the equation defining the first example is a polynomial equation, whereas the second cannot be represented by polynomial equations, even implicitly. In fact, in the present context, a reasonable and useful first approximation of the adjective ''algebraic'' would be ''defined by polynomials.''
	--[[User:Holger Kley\|Holger Kley]] 13:23, 6 December 2007 (CST)		--[[User:Holger Kley\|Holger Kley]] 13:23, 6 December 2007 (CST)

Algebraic geometry: Difference between revisions

Revision as of 14:24, 6 December 2007

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