Book contents
- Frontmatter
- ADVERTISEMENT
- Contents
- CLASSIFICATION
- 706 On the distribution of electricity on two spherical surfaces
- 707 On the colouring of maps
- 708 Note sur la théorie des courbes de l'espace
- 709 On the number of constants in the equation of the surface PS–QR = 0
- 710 On a differential equation
- 711 On a diagram connected with the transformation of elliptic functions
- 712 A partial differential equation connected with the simplest case of Abel's theorem
- 713 Addition to Mr. Rowe's “Memoir on Abel's theorem”
- 714 Various notes
- 715 Note on a system of algebraical equations
- 716 An illustration of the theory of the ϑ-functions
- 717 On the triple theta-functions
- 718 Addition to Mr. Genese's paper “On the theory of envelopes”
- 719 Suggestion of a mechanical integrator for the calculation of ∫(Xdx+Ydy) along an arbitrary path
- 720 Note on Arbogast's method of derivations
- 721 Formulæ involving the seventh roots of unity
- 722 A problem in partitions
- 723 Various notes
- 724 On the deformation of the model of a hyperboloid
- 725 New formulæ for the integration of […]
- 726 A formula by Gauss for the calculation of log 2 and certain other logarithms
- 727 Equation of the wave-surface in elliptic coordinates
- 728 A theorem in elliptic functions
- 729 On a theorem relating to conformable figures
- 730 [Addition to Mr. Spottiswoode's paper “On the twenty-one coordinates of a conic in space”]
- 731 On the binomial equation xp – 1 = 0; trisection and quartisection
- 732 A theorem in spherical trigonometry
- 733 On a formula of elimination
- 734 On the kinematics of a plane
- 735 Note on the theory of apsidal surfaces
- 736 Application of the Newton-Fourier method to an imaginary root of an equation
- 737 On a covariant formula
- 738 Note on a hypergeometric series
- 739 Note on the octahedron function
- 740 On certain algebraical identities
- 741 On a theorem of Abel's relating to a quintic equation
- 742 On the transformation of coordinates
- 743 On the Newton-Fourier problem
- 744 Table of Δm0n ÷ (m) up to m = n = 20
- 745 On the Schwarzian derivative, and the polyhedral functions
- 746 Higher Plane Curves
- 747 Note on the degenerate forms of curves
- 748 On the bitangents of a quartic
- 749 Solid Geometry
- 750 On the theory of reciprocal surfaces
- 751 Note on Riemann's paper “Versuch einer allgemeinen Auffassung der Integration und Differentiation,” Werke, pp. 331—344
- 752 On the finite groups of linear transformations of a variable; with a correction
- 753 On a theorem relating to the multiple theta-functions
- 754 On the connection of certain formulæ in elliptic functions
- 755 On the matrix, and in connection therewith the function
- 756 A geometrical construction relating to imaginary quantities
- 757 On a Smith's Prize question, relating to potentials
- 758 Solution of a Senate-House problem
- 759 Illustration of a theorem in the theory of equations
- 760 Reduction of […] to elliptic integrals
- 761 On the theorem of the finite number of the covariants of a binary quantic
- 762 On Schubert's method for the contacts of a line with a surface
- 763 On the theorems of the 2, 4, 8, and 16 squares
- 764 The binomial equation xp–1 = 0; quinquisection
- 765 On the flexure and equilibrium of a skew surface
- 766 On the geodesic curvature of a curve on a surface
- 767 On the Gaussian theory of surfaces
- 768 Note on Landen's theorem
- 769 On a formula relating to elliptic integrals of the third kind
- 770 On the 34 concomitants of the ternary cubic
- 771 Specimen of a literal table for binary quantics, otherwise a partition table
- 772 On the analytical forms called trees
- 773 On the 8-square imaginaries
- 774 Tables for the binary sextic
- 775 Tables of covariants of the binary sextic
- 776 On the Jacobian sextic equation
- 777 A solvable case of the quintic equation
- 778 [Addition to Mr. Hudson's paper “On equal roots of equations”]
- 779 [Note on Mr. Jeffery's paper “On certain quartic curves, which have a cusp at infinity, whereat the line at infinity is a tangent”]
- 780 [Addition to Mr. Hammond's paper “Note on an exceptional case in which the fundamental postulate of Professor Sylvester's theory of tamisage fails”]
- 781 On the automorphic transformation of the binary cubic function
- 782 On Monge's “Mémoire sur la théorie des déblais et des remblais”
- 783 On Mr. Wilkinson's rectangular transformation
- 784 Presidential Address to the British Association, Southport, September 1883
- 785 Curve
- 786 Equation
- 787 Function
- 788 Galois
- 789 Gauss
- 790 Geometry
- 791 Landen
- 792 Locus
- 793 Monge
- 794 Numbers (partition of)
- 795 Numbers (theory of)
- 796 Series
- 797 Surface
- 798 Wallis (John)
Book contents
- Frontmatter
- ADVERTISEMENT
- Contents
- CLASSIFICATION
- 706 On the distribution of electricity on two spherical surfaces
- 707 On the colouring of maps
- 708 Note sur la théorie des courbes de l'espace
- 709 On the number of constants in the equation of the surface PS–QR = 0
- 710 On a differential equation
- 711 On a diagram connected with the transformation of elliptic functions
- 712 A partial differential equation connected with the simplest case of Abel's theorem
- 713 Addition to Mr. Rowe's “Memoir on Abel's theorem”
- 714 Various notes
- 715 Note on a system of algebraical equations
- 716 An illustration of the theory of the ϑ-functions
- 717 On the triple theta-functions
- 718 Addition to Mr. Genese's paper “On the theory of envelopes”
- 719 Suggestion of a mechanical integrator for the calculation of ∫(Xdx+Ydy) along an arbitrary path
- 720 Note on Arbogast's method of derivations
- 721 Formulæ involving the seventh roots of unity
- 722 A problem in partitions
- 723 Various notes
- 724 On the deformation of the model of a hyperboloid
- 725 New formulæ for the integration of […]
- 726 A formula by Gauss for the calculation of log 2 and certain other logarithms
- 727 Equation of the wave-surface in elliptic coordinates
- 728 A theorem in elliptic functions
- 729 On a theorem relating to conformable figures
- 730 [Addition to Mr. Spottiswoode's paper “On the twenty-one coordinates of a conic in space”]
- 731 On the binomial equation xp – 1 = 0; trisection and quartisection
- 732 A theorem in spherical trigonometry
- 733 On a formula of elimination
- 734 On the kinematics of a plane
- 735 Note on the theory of apsidal surfaces
- 736 Application of the Newton-Fourier method to an imaginary root of an equation
- 737 On a covariant formula
- 738 Note on a hypergeometric series
- 739 Note on the octahedron function
- 740 On certain algebraical identities
- 741 On a theorem of Abel's relating to a quintic equation
- 742 On the transformation of coordinates
- 743 On the Newton-Fourier problem
- 744 Table of Δm0n ÷ (m) up to m = n = 20
- 745 On the Schwarzian derivative, and the polyhedral functions
- 746 Higher Plane Curves
- 747 Note on the degenerate forms of curves
- 748 On the bitangents of a quartic
- 749 Solid Geometry
- 750 On the theory of reciprocal surfaces
- 751 Note on Riemann's paper “Versuch einer allgemeinen Auffassung der Integration und Differentiation,” Werke, pp. 331—344
- 752 On the finite groups of linear transformations of a variable; with a correction
- 753 On a theorem relating to the multiple theta-functions
- 754 On the connection of certain formulæ in elliptic functions
- 755 On the matrix, and in connection therewith the function
- 756 A geometrical construction relating to imaginary quantities
- 757 On a Smith's Prize question, relating to potentials
- 758 Solution of a Senate-House problem
- 759 Illustration of a theorem in the theory of equations
- 760 Reduction of […] to elliptic integrals
- 761 On the theorem of the finite number of the covariants of a binary quantic
- 762 On Schubert's method for the contacts of a line with a surface
- 763 On the theorems of the 2, 4, 8, and 16 squares
- 764 The binomial equation xp–1 = 0; quinquisection
- 765 On the flexure and equilibrium of a skew surface
- 766 On the geodesic curvature of a curve on a surface
- 767 On the Gaussian theory of surfaces
- 768 Note on Landen's theorem
- 769 On a formula relating to elliptic integrals of the third kind
- 770 On the 34 concomitants of the ternary cubic
- 771 Specimen of a literal table for binary quantics, otherwise a partition table
- 772 On the analytical forms called trees
- 773 On the 8-square imaginaries
- 774 Tables for the binary sextic
- 775 Tables of covariants of the binary sextic
- 776 On the Jacobian sextic equation
- 777 A solvable case of the quintic equation
- 778 [Addition to Mr. Hudson's paper “On equal roots of equations”]
- 779 [Note on Mr. Jeffery's paper “On certain quartic curves, which have a cusp at infinity, whereat the line at infinity is a tangent”]
- 780 [Addition to Mr. Hammond's paper “Note on an exceptional case in which the fundamental postulate of Professor Sylvester's theory of tamisage fails”]
- 781 On the automorphic transformation of the binary cubic function
- 782 On Monge's “Mémoire sur la théorie des déblais et des remblais”
- 783 On Mr. Wilkinson's rectangular transformation
- 784 Presidential Address to the British Association, Southport, September 1883
- 785 Curve
- 786 Equation
- 787 Function
- 788 Galois
- 789 Gauss
- 790 Geometry
- 791 Landen
- 792 Locus
- 793 Monge
- 794 Numbers (partition of)
- 795 Numbers (theory of)
- 796 Series
- 797 Surface
- 798 Wallis (John)
Summary
Functionality, in Analysis, is dependence on a variable or variables; in the case of a single variable u, it is the same thing to say that v depends upon u, or to say that v is a function of u, only in the latter form of expression the mode of dependence is embodied in the term “function.” We have given or known functions such as u2 or sin u, and the general notation of the form ϕu, where the letter ϕ is used as a functional symbol to denote a function of u, known or unknown as the case may be: in each case u is the independent variable or argument of the function, but it is to be observed that, if v be a function of u, then v like u is a variable, the values of v regarded as known serve to determine those of u; that is, we may conversely regard u as a function of v. In the case of two or more independent variables, say when w depends on or is a function of u, v, &c, or w=ϕ(u, v,…), then u, v, … are the independent variables or arguments of the function; frequently when one of these variables, say u, is principally or alone attended to, it is regarded as the independent variable or argument of the function, and the other variables v, &c, are regarded as parameters, the values of which serve to complete the definition of the function.
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- Chapter
- Information
- The Collected Mathematical Papers , pp. 522 - 542Publisher: Cambridge University PressPrint publication year: 2009First published in: 1896