*[[ThreeA '''two-dimensional graph ]]''' may refer to ▼A '''two-dimensional graph''' is a set of points in [[two-dimensional space]]. If the points are [[Real variable|real]] and if [[Cartesian coordinates]] are used, each axis depicts the potential values of a particular real variable. Often the variable on the horizontal axis is called ''x'' and the one on the vertical axis is called ''y'', in which case the horizontal and vertical axes are sometimes called the ''x'' axis and ''y'' axis respectively. With real variables on the axes, each point in the graph depicts the values of two real variables.
* The [[graph of a function]] of one variable
* A [[planar graph]]
* A [[diagram]] in a plane
{{mathdab}}
Alternatively, each point in a graph may depict the value of a single [[complex variable]]. In this case, the horizontal axis is called the real axis and depicts the potential values of the real part of the complex number, while the vertical axis is called the [[imaginary number|imaginary]] axis and depicts the potential values of the imaginary part of the complex number.
==Graph of a function==
[[Image:cubicpoly.svg||right|thumb|400 px| Graph of the function <math>f(x)={{x^3}-9x} \!\ </math>]]
{{Main|Graph of a function}}
If the relation between the two real variables is of the form <math>y=f(x)</math> where ''f'' is a [[Function (mathematics)|function]] giving a single value of ''y'' associated with each admissible value of ''x'', then the graph is called the graph of a function. The function could be a [[polynomial]] function or a [[transcendental function]].
For example, the graph of the [[cubic polynomial]]
: <math>f(x)={{x^3}-9x} \!\ </math>
is
: {(''x'', ''x''<sup>3</sup>-9''x'') : ''x'' is a real number}.
If this set is plotted on a [[Cartesian plane]], the result is a curve (see figure).
{{Clear}}
[[File:Binary logarithm plot with ticks.svg|left|thumb|upright=1.35]]
An example of a two-dimensional graph of a transcendental function is the graph of the [[logarithmic function]] at the left.
==Graph of a polynomial equation in two variables==
[[Image:Circle center a b radius r.svg|thumb|right|Circle of radius ''r'' = 1, centre (''a'', ''b'') = (1.2, −0.5)]]
In some cases a polynomial in two variables cannot be rewritten in the form <math>y=f(x)</math>. Nevertheless, the set of all points satisfying the equation can still be plotted as a two-dimensional graph, as in the accompanying graph of the circle <math>(x-a)^2+(y-b)^2=1.</math>
==Superimposed graphs of more than one function==
[[File:Supply-and-demand.svg|thumb|left|240px|The price P of a product is determined by a balance between production at each price (supply S) and the desires of those with [[purchasing power]] at each price (demand D). The diagram shows a positive shift in demand from D<sub>1</sub> to D<sub>2</sub>, resulting in an increase in price (P) and quantity sold (Q) of the product.]]
In some contexts it is useful to graph two or more functions together in the same diagram. An example is the [[supply and demand]] graph commonly used in [[Economic graph|economics]], shown here.
==See also==
*[[Graph (disambiguation)]]
▲*[[Three-dimensional graph]]
*[[Analytic geometry]]
*[[Cartesian coordinate system]]
*[[Euclidean space]]
*[[Coordinate system]]
*[[Dimension]]
[[Category:Charts]]
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