Physics[Inverse] - compute the inverse of an object with respect to noncommutative products
Calling Sequence
Inverse(f)
Parameters
f
-
any mathematical expression
Description
The Inverse command, when applied to an object, represents the object's (noncommutative) multiplicative inverse; that is, Inverse(Z) * Z = Z * Inverse(Z) = 1, where * herein represents the Physics[*] product, whose commutativity depends on the operands (see also type, commutative).
The %Inverse command is the inert form of Inverse; that is, it represents the same mathematical operation while displaying the operation unevaluated. To evaluate the operation, use the value command.
The results returned by Inverse are constructed as follows:
- If is of commutative type, then return .
- If is a matrix, then return its inverse.
- If is equal to Inverse(g) for some , then return .
- If is a noncommutative product, then distribute:.
- If is a * (commutative) product, then distribute:.
- Otherwise, return the unevaluated expression .
All noncommutative products introduced by Inverse have their operands sorted and normalized automatically by the Physics[*] operator. This ensures that the basic simplifications and identities for these products are taken into account in the returned results.
A `print/Inverse` procedure makes the display of this function appear as a power, as in
Inverse(Q);
Examples
First, set prefixes for identifying anticommutative and noncommutative variables.
Consider now the list of objects of commutative, anticommutative, and noncommutative types.
The multiplicative inverses of these objects are:
In turn out that the multiplicative inverses of these inverses are the original objects themselves.
See Also
Physics, Physics conventions, Physics examples, Physics Updates, Tensors - a complete guide, Mini-Course Computer Algebra for Physicists, Physics[*], Setup, type/anticommutative, type/noncommutative
Download Help Document
