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Geometric representation of the complex numbers
In mathematics, the complex plane is the plane formed by the complex numbers, with a Cartesian coordinate system such that the horizontal x-axis, called
Complex_plane
Number with a real and an imaginary part
standard basis makes the complex numbers a Cartesian plane, called the complex plane. This allows a geometric interpretation of the complex numbers and their
Complex_number
2D surface which extends indefinitely
in adding more structure, one may view the plane as a 1-dimensional complex manifold, called the complex line. Many fundamental tasks in mathematics
Plane_(mathematics)
Complex-differentiable (mathematical) function
regular functions. A holomorphic function whose domain is the whole complex plane is called an entire function. The phrase "holomorphic at a point z
Holomorphic_function
Model of the extended complex plane plus a point at infinity
of the extended complex plane (also called the closed complex plane): the complex plane plus one point at infinity. This extended plane represents the
Riemann_sphere
Logarithm of a complex number
These logarithms are equally spaced along a vertical line in the complex plane. A complex-valued function log : U → C {\displaystyle \log \colon U\to \mathbb
Complex_logarithm
Branch of mathematics studying functions of a complex variable
the complex numbers as a codomain. Complex functions are generally assumed to have a domain that contains a nonempty open subset of the complex plane. For
Complex_analysis
Reals with an extra square root of +1 adjoined
the ordinary complex ones. The collection of all such z is called the split-complex plane. Addition and multiplication of split-complex numbers are defined
Split-complex_number
Circle with radius of one
additional examples. In the complex plane, numbers of unit magnitude are called the unit complex numbers. This is the set of complex numbers z such that | z
Unit_circle
Fundamental trigonometric functions
the complex plane, the function e i x {\displaystyle e^{ix}} for real values of x {\displaystyle x} traces out the unit circle in the complex plane. Both
Sine_and_cosine
Concept in geometry including line and circle
sphere. The extended Euclidean plane can be identified with the extended complex plane, so that equations of complex numbers can be used to describe
Generalised_circle
2-dimensional complex projective space
In mathematics, the complex projective plane, usually denoted P 2 ( C ) {\displaystyle \mathbb {P} ^{2}(\mathbb {C} )} or C P 2 , {\displaystyle
Complex_projective_plane
Mathematical function, denoted exp(x) or e^x
generalized to accept complex numbers as arguments. This reveals relations between multiplication of complex numbers, rotations in the complex plane, and trigonometry
Exponential_function
Mathematical space with two coordinates
represent physical positions, like an affine plane or complex plane. The most basic example is the flat Euclidean plane, an idealization of a flat surface in
Two-dimensional_space
Type of function in mathematics
definition of a complex analytic function is obtained by replacing, in the definitions above, "real" with "complex" and "real line" with "complex plane". A function
Analytic_function
Mathematical concept
\infty } can be added to the complex plane as a topological space giving the one-point compactification of the complex plane. When this is done, the resulting
Infinity
Complex numbers with non-negative imaginary part
Poincaré half-plane model. Mathematicians sometimes identify the Cartesian plane with the complex plane, and then the upper half-plane corresponds to
Upper_half-plane
One-dimensional complex manifold
thought of as deformed versions of the complex plane: locally near every point they look like patches of the complex plane, but the global topology can be quite
Riemann_surface
Distance from zero to a number
The absolute value of a complex number is defined by the Euclidean distance of its corresponding point in the complex plane from the origin. This can
Absolute_value
Mathematical concept
In mathematics, a plane curve is a curve in a plane that may be a Euclidean plane, an affine plane or a projective plane. The most frequently studied cases
Plane_curve
Concept in complex analysis
meromorphic functions. For example, if a function is meromorphic on the whole complex plane plus the point at infinity, then the sum of the multiplicities of its
Zeros_and_poles
Class of mathematical function
the mathematical field of complex analysis, a meromorphic function on an open subset D {\displaystyle D} of the complex plane is a function that is holomorphic
Meromorphic_function
Extension of the factorial function
}t^{z-1}e^{-t}\,dt,\ \qquad \Re (z)>0.} The gamma function then is defined in the complex plane as the analytic continuation of this integral function: it is a meromorphic
Gamma_function
Complex exponential in terms of sine and cosine
ex to the complex plane. The exponential function f ( z ) = e z {\displaystyle f(z)=e^{z}} is the unique differentiable function of a complex variable
Euler's_formula
Geometric figure
hyperbola is the set of points ( x , y ) {\displaystyle (x,y)} in the Cartesian plane that satisfy the implicit equation x 2 − y 2 = 1 {\displaystyle x^{2}-y^{2}=1}
Unit_hyperbola
Complex number whose mapping on a coordinate plane produces a triangular lattice
triangular lattice in the complex plane, in contrast with the Gaussian integers, which form a square lattice in the complex plane. The Eisenstein integers
Eisenstein_integer
Limiting set in dynamical systems
method can also be applied to complex functions to find their roots. Each root has a basin of attraction in the complex plane; these basins can be mapped
Attractor
Coordinates comprising a distance and an angle
In mathematics, the polar coordinate system specifies a given point in a plane by using a distance and an angle as its two coordinates. These are the point's
Polar_coordinate_system
Inverse functions of sin, cos, tan, etc.
These functions may also be expressed using complex logarithms. This extends their domains to the complex plane in a natural fashion. The following identities
Inverse trigonometric functions
Inverse_trigonometric_functions
Complex number representing a particular sine wave
A\cos(\omega t+\theta ).} Figure 2 depicts it as a rotating vector in the complex plane. It is sometimes convenient to refer to the entire function as a phasor
Phasor
Set of points at distance less than one from a given point
identified with the set of all complex numbers of absolute value less than one. When viewed as a subset of the complex plane (C), the open unit disk is often
Unit_disk
Method for estimating new data outside known data points
This transform exchanges the part of the complex plane inside the unit circle with the part of the complex plane outside of the unit circle. In particular
Extrapolation
Sigmoid shape special function
a complex contour integral which is path-independent because exp ( − t 2 ) {\displaystyle \exp(-t^{2})} is holomorphic on the whole complex plane C
Error_function
Special function in the physical sciences
... As explained below, the Airy functions can be extended to the complex plane, giving entire functions. The asymptotic behaviour of the Airy functions
Airy_function
Polynomial equation of degree 3
[clarification needed] With one real and two complex roots, the three roots can be represented as points in the complex plane, as can the two roots of the cubic's
Cubic_equation
Principal square root of minus 1
2π to this angle works as well.) In the complex plane, which is a special interpretation of a Cartesian plane, i is the point located one unit from the
Imaginary_unit
Hyperbolic analogues of trigonometric functions
result, the other hyperbolic functions are meromorphic in the whole complex plane. By Lindemann–Weierstrass theorem, the hyperbolic functions have a transcendental
Hyperbolic_functions
Upper-half plane model of hyperbolic non-Euclidean geometry
outside the hyperbolic plane proper. Sometimes the points of the half-plane model are considered to lie in the complex plane with positive imaginary
Poincaré_half-plane_model
Study of complex manifolds and several complex variables
objects which are modelled, in some sense, on the complex plane. Features of the complex plane and complex analysis of a single variable, such as an intrinsic
Complex_geometry
Function that is holomorphic on the whole complex plane
complex analysis, an entire function, also called an integral function, is a complex-valued function that is holomorphic on the whole complex plane.
Entire_function
Functions of an angle
cosine functions to the whole complex plane, and the domain of the other trigonometric functions to the complex plane with some isolated points removed
Trigonometric_functions
Fractal named after mathematician Benoit Mandelbrot
(/ˈmændəlbroʊt, -brɒt/) is a two-dimensional set. It is defined in the complex plane as the complex numbers c {\displaystyle c} for which the function f c ( z )
Mandelbrot_set
Mathematical functions
branch of the multivalued function, over a domain consisting of the complex plane in which a finite number of arcs (usually half lines or line segments)
Inverse_hyperbolic_functions
Method of evaluating certain integrals along paths in the complex plane
mathematical field of complex analysis, contour integration is a method of evaluating certain integrals along paths in the complex plane. Contour integration
Contour_integration
American media and entertainment company
to advertise within the collective. Complex now includes over 100 sites. In 2011, Complex acquired Pigeons & Planes, an indie music and rap blog, and brought
Complex_Networks
Type of vector space in math
are often taken over the complex numbers. The complex plane denoted by C is equipped with a notion of magnitude, the complex modulus |z|, which is defined
Hilbert_space
Function defined by a hypergeometric series
{(b)_{n}}{(c)_{n}}}z^{n}.} For complex arguments z with |z| ≥ 1 it can be analytically continued along any path in the complex plane that avoids the branch points
Hypergeometric_function
Family of solutions to related differential equations
} Both Jα(x) and Yα(x) are holomorphic functions of x on the complex plane cut along the negative real axis. When α is an integer, the Bessel functions
Bessel_function
Exploring properties of the integers with complex analysis
was conceived as applying to power series near the unit circle in the complex plane; it is now thought of in terms of finite exponential sums (that is,
Analytic_number_theory
Curve defined as zeros of polynomials
algebraic plane curve is the zero set of a polynomial in two variables. A projective algebraic plane curve is the zero set in a projective plane of a homogeneous
Algebraic_curve
Angle of complex number about real axis
and the line joining the origin and z, represented as a point in the complex plane, shown as φ {\displaystyle \varphi } in Figure 1. By convention the
Argument_(complex_analysis)
Interpolation with trigonometric polynomials
conditions. The problem becomes more natural if we formulate it in the complex plane. We can rewrite the formula for a trigonometric polynomial as p ( x
Trigonometric_interpolation
Multivalued function in mathematics
are disjoint. The range of the entire multivalued function W is the complex plane. The image of the real axis is the union of the real axis and the quadratrix
Lambert_W_function
to a real plane, not a real line. The "complex plane" commonly refers to the graphical representation of the complex line on the real plane, and is thus
Complex_line
Geometric model of the planar projection of the physical universe
the plane was thought of as a field, where any two points could be multiplied and, except for 0, divided. This was known as the complex plane. The complex
Euclidean_plane
Mathematical expression
extended complex plane into a single point. Notice that the sequence {Τn} lies within the automorphism group of the extended complex plane, since each
Continued_fraction
Boundary set in the complex plane
The Newton fractal is a boundary set in the complex plane which is characterized by Newton's method applied to a fixed polynomial p(z) ∈ C {\displaystyle
Newton_fractal
Used to count, measure, and label
[clarification needed] This eventually led to the concept of the extended complex plane. Prime numbers may have been studied throughout recorded history. They
Number
Special function defined by an integral
logarithmic integral can also be taken to be a meromorphic complex-valued function in the complex domain. In this case it is multi-valued with branch points
Logarithmic_integral_function
Arithmetic operation, inverse of nth power
number. As a function, the principal root is continuous in the whole complex plane, except along the negative real axis. The nth roots of 1 are called
Nth_root
Diagram showing the singularities of a given control system's transfer function
is a graphical representation of a rational transfer function in the complex plane which helps to convey certain properties of the system such as: Stability
Pole–zero_plot
Simple curve of Euclidean geometry
A circle is a shape consisting of all points in a plane that are at a given distance from a given point, the centre. The distance between any point of
Circle
Matrix representing a Euclidean rotation
xy plane counterclockwise through an angle θ about the origin of a two-dimensional Cartesian coordinate system. To perform the rotation on a plane point
Rotation_matrix
Branch of mathematics
defined by a metric. This is the case of the real line, the complex plane, real and complex normed vector spaces and Euclidean spaces. Having a metric
Topology
Rational function of the form (az + b)/(cz + d)
In geometry and complex analysis, a Möbius transformation of the complex plane is a rational function of the form f ( z ) = a z + b c z + d {\displaystyle
Möbius_transformation
Special function defined by an integral
real and positive; this can be evaluated by closing a contour in the complex plane and applying Cauchy's integral theorem. The Fresnel integrals admit
Fresnel_integral
Fundamental operation on complex numbers
In mathematics, the complex conjugate of a complex number is the number with an equal real part and an imaginary part equal in magnitude but opposite in
Complex_conjugate
Simply connected Riemann surface is equivalent to an open disk, complex plane, or sphere
complex plane, or the Riemann sphere. The theorem is a generalization of the Riemann mapping theorem from simply connected open subsets of the plane to
Uniformization_theorem
Technique for visualizing complex functions
the complex plane. By assigning points on the complex plane to different colors and brightness, domain coloring allows for a function from the complex plane
Domain_coloring
Short "burst" or "envelope" of restricted wave action that travels as a unit
medium. Using the physics time convention, e−iωt, the wave equation has plane-wave solutions u ( x , t ) = e i ( k ⋅ x − ω ( k ) t ) , {\displaystyle
Wave_packet
Definite integral of a scalar or vector field along a path
well, although that is typically reserved for line integrals in the complex plane. The function to be integrated may be a scalar field or a vector field
Line_integral
Special case of the polylogarithm
(the integral definition constitutes its analytical extension to the complex plane): Li 2 ( z ) = ∑ k = 1 ∞ z k k 2 . {\displaystyle \operatorname {Li}
Dilogarithm
classical planes over the complex numbers, the quaternions, and the octonions are smooth planes. However, these are not the only such planes. A smooth
Smooth_projective_plane
Shape with four equal sides and angles
coordinates, or by repeated multiplication by i {\displaystyle i} in the complex plane. They form the metric balls for taxicab geometry and Chebyshev distance
Square
Arithmetic operation
infinite results on the imaginary axis.[citation needed] Plotted in the complex plane, the entire sequence spirals to the limit 0.4383 + 0.3606i, which could
Tetration
Concept of complex analysis
theorem: Let U {\displaystyle U} be a simply connected open subset of the complex plane containing a finite list of points a 1 , … , a n {\displaystyle a_{1}
Residue_theorem
Theorem about the range of an analytic function
values that f ( z ) {\textstyle f(z)} assumes is either the whole complex plane or the plane minus a single point. Sketch of Proof: Picard's original proof
Picard_theorem
Theorem in complex analysis
≤ M {\displaystyle |f(z)|\leq M} for all z {\displaystyle z} in the complex plane, we can apply the Cauchy estimate to a disk center at any z 0 {\displaystyle
Liouville's theorem (complex analysis)
Liouville's_theorem_(complex_analysis)
Mathematical equation linking e, i and π
}+1=0.} Any complex number z = x + i y {\displaystyle z=x+iy} can be represented by the point ( x , y ) {\displaystyle (x,y)} on the complex plane. This point
Euler's_identity
Cylindrical conformal map projection
mapping the sphere onto the complex plane via the stereographic projection. From there, the Mercator projection is just the complex logarithm, z ↦ log
Mercator_projection
Special function defined by an integral
E i {\displaystyle \mathrm {Ei} } is a special function on the complex plane. It is defined as one particular definite integral of the ratio between
Exponential_integral
Graphical method of determining the stability of a dynamical system
transfer functions with right half-plane singularities. In addition, there is a natural generalization to more complex systems with multiple inputs and
Nyquist_stability_criterion
Branch of mathematics
string theory. Complex geometry studies the nature of geometric structures modelled on, or arising out of, the complex plane. Complex geometry lies at
Geometry
Line formed by the real numbers
The real line can be embedded in the complex plane, used as a two-dimensional geometric representation of the complex numbers. The first mention of the number
Number_line
Mathematical function
of two circles, one real and the other imaginary. The complex plane can be replaced by a complex torus. The circumference of the first circle is 4 K {\displaystyle
Jacobi_elliptic_functions
Type of plane wave
sinusoidal plane wave is a special case of plane wave: a field whose value varies as a sinusoidal function of time and of the distance from some fixed plane. It
Sinusoidal_plane_wave
Meromorphic function on the complex plane
An L-function is a meromorphic function on the complex plane, and one out of several categories of mathematical objects studied in analytic number theory
L-function
Complex number whose real and imaginary parts are both integers
which is a subring of the field of complex numbers. It is thus an integral domain. When considered within the complex plane, the Gaussian integers constitute
Gaussian_integer
Association of one output to each input
functions whose domain is a small part of the complex plane to functions whose domain is almost the whole complex plane. Here is another classical example of
Function_(mathematics)
Linear transform from the time domain to the frequency domain
signal, which is a sequence of real or complex numbers, into a complex valued frequency-domain (the z-domain or z-plane) representation. It can be considered
Z-transform
Number with an integer power equal to 1
}{n}}} is a primitive nth root of unity. This formula shows that in the complex plane the nth roots of unity are at the vertices of a regular n-sided polygon
Root_of_unity
Square root of a non-positive real number
Friedrich Gauss (1777–1855). The geometric significance of complex numbers as points in a plane was first described by Caspar Wessel (1745–1818). In 1843
Imaginary_number
Concept in geometry
added to the complex line (which may be thought of as the complex plane), thereby turning it into a closed surface known as the complex projective line
Point_at_infinity
Mathematical function that preserves angles
semi-Riemannian manifolds. If U {\displaystyle U} is an open subset of the complex plane C {\displaystyle \mathbb {C} } , then a function f : U → C {\displaystyle
Conformal_map
Complex plane fractal
{Im} \left(z_{n}\right)|)^{2}+c,\quad z_{0}=0} in the complex plane C {\displaystyle \mathbb {C} } which will either escape or remain bounded
Burning_Ship_fractal
Modular function in mathematics
{\displaystyle \operatorname {SL} (2,\mathbb {Z} )} defined on the upper half-plane of complex numbers. It is the unique such function that is holomorphic away from
J-invariant
Geometric object used to describe rotation in any number of dimensions
dimensions, the plane of rotation is perpendicular to the axis of rotation. The main use for planes of rotation is in describing more complex rotations in
Plane_of_rotation
Mathematical approximation of a function
sum of its Taylor series in some open interval (or open disk in the complex plane) containing x. This implies that the function is analytic at every point
Taylor_series
Curves whose limit does not preserve length
There are sequences of continuously differentiable contours in the complex plane that converge uniformly to the line segment [0,1], even to z = 0, but
Staircase_paradox
Triangle in hyperbolic geometry
observer's viewpoint. In the half plane model, points with positive imaginary part in the complex plane comprise the hyperbolic plane. The real axis is part of
Hyperbolic_triangle
COMPLEX PLANE
COMPLEX PLANE
Girl/Female
Tamil
Shesha Harani | ஷேஷ ஹரணீÂ
Complete
Shesha Harani | ஷேஷ ஹரணீÂ
Girl/Female
Bengali, Indian
Good Complex
Boy/Male
Tamil
Poornan | பூரà¯à®¨à®¾à®¨
Complete
Poornan | பூரà¯à®¨à®¾à®¨
Girl/Female
Hindu, Indian
Complex
Boy/Male
Tamil
Complete
Girl/Female
Tamil
Sompurna | ஸோமபà¯à®°à¯à®¨à®¾
Complete
Sompurna | ஸோமபà¯à®°à¯à®¨à®¾
Surname or Lastname
English (Yorkshire)
English (Yorkshire) : habitational name from any of various places called Copley, for example in County Durham, Staffordshire, and Yorkshire, from the Old English personal name Coppa (apparently a byname for a tall man) or from copp ‘hilltop’ + lēah ‘woodland clearing’.
Boy/Male
Tamil
Complete
Boy/Male
Tamil
Complete
Girl/Female
Tamil
Complete
Boy/Male
Indian
Complete
Girl/Female
Arabic, Muslim
Complex; Zigzag; Curling
Surname or Lastname
English
English : unexplained.Americanized form of German Koppler.
Boy/Male
Indian
Complete
Girl/Female
Tamil
Complete
Girl/Female
Muslim
Complex, Zigzag, Curling
Surname or Lastname
English
English : habitational name from Coppull in Lancashire, recorded in the 13th century as Cophill, from Old English copp ‘peak’ + hyll ‘hill’.English : nickname from Old French curt peil ‘short hair’.Probably an Americanized spelling of German and Jewish Koppel or German and Dutch Kappel.
Girl/Female
Tamil
Complete
Girl/Female
Tamil
Complete
Surname or Lastname
English
English : habitational name, probably from Comley in Shropshire or Combley on the Isle of Wight; both are named with Old English cumb ‘valley’ + lēah ‘woodland clearing’.
COMPLEX PLANE
COMPLEX PLANE
Male
Polish
Polish form of Greek Mattathias, MATEUSZ means "gift of God."
Boy/Male
American, Australian, British, English
Joyful
Boy/Male
Tamil
Adorning, Loving
Girl/Female
Indian
Sita
Girl/Female
Christian, German, Swedish
Noble; Kind; Brightness
Boy/Male
Hindu, Indian
Lovable
Female
Czechoslovakian
, God's oath.
Boy/Male
Tamil
Girl/Female
Hindu, Indian
Lakshmi
Boy/Male
Arabic, Australian, Muslim
Pilgrim
COMPLEX PLANE
COMPLEX PLANE
COMPLEX PLANE
COMPLEX PLANE
COMPLEX PLANE
n.
Two taken together; a pair or couple; especially two lines of verse that rhyme with each other.
a.
Complex, complicated.
n.
One who couples; that which couples, as a link, ring, or shackle, to connect cars.
a.
Repeatedly compound; made up of complex constituents.
n.
A complex; an aggregate of parts; a complication.
a.
One of the pairs of plates of two metals which compose a voltaic battery; -- called a voltaic couple or galvanic couple.
n.
Composed of two or more parts; composite; not simple; as, a complex being; a complex idea.
a.
Finished; ended; concluded; completed; as, the edifice is complete.
a.
That which joins or links two things together; a bond or tie; a coupler.
imp. & p. p.
of Compile
v. t.
To bring to a state in which there is no deficiency; to perfect; to consummate; to accomplish; to fulfill; to finish; as, to complete a task, or a poem; to complete a course of education.
a.
Not complex; uncompounded; simple.
n.
One who complies, yields, or obeys; one of an easy, yielding temper.
adv.
In a complex manner; not simply.
a.
Intricate; entangled; complicated; complex.
imp. & p. p.
of Comply
pl.
of Couple-close
n.
One who compiles; esp., one who makes books by compilation.
imp. & p. p.
of Couple
a.
See Couple-close.