Cylindrical represents the cylindrical coordinate system with default variables Rr, Ttheta, and Zz.Cylindrical[r, \[Theta], z] represents the cylindrical coordinate system ...

ParabolicCylindrical represents the parabolic cylindrical coordinate system with default variables Uu, Vv, and Zz. ParabolicCylindrical[u, v, z] represents the parabolic ...

Paraboloidal represents the paraboloidal coordinate system with default variables Uu, Vv, and Pphi.Paraboloidal[u, v, \[Phi]] represents the paraboloidal coordinate system ...

Spherical represents the spherical coordinate system with default variables Rr, Ttheta, and Pphi. Spherical[r, \[Theta], \[Phi]] represents the spherical coordinate system ...

Mathematica's symbolic architecture supports a highly generalized notion of assignment, in which you can specify a transformation for any class of expressions defined by a ...

Mathematica has fundamental support for both explicit complex numbers and symbolic complex variables. All applicable mathematical functions support arbitrary-precision ...

With careful standardization of argument conventions, Mathematica provides full coverage of all standard types of elliptic functions, with arbitrary-precision numerical ...

Mathematica represents Boolean expressions in symbolic form, so they can not only be evaluated, but also be symbolically manipulated and transformed. Incorporating ...

Developed at Wolfram Research over nearly twenty years, Mathematica has by far the world's most sophisticated and convenient mathematical typesetting technology. Generalizing ...

Mathematica has a wide coverage of named functions defined by sums and recurrence relations. Often using original algorithms developed at Wolfram Research, Mathematica ...