Bilinear Operator

B : V × W → X

$v\; \backslash mapsto\; B(v,\; w)$

$w\; \backslash mapsto\; B(v,\; w)$

B(mr, n) = B(m, rn)

Examples

• Matrix multiplication is a bilinear map M(m,n) × M(n,p) → M(m,p).
• If a vector space V over the real numbers R carries an inner product, then the inner product is a bilinear operator V × V → R.
• In general, for a vector space V over a field F, a bilinear form on V is the same as a bilinear operator V × V → F.
• If V is a vector space with dual space V*, then the application operator, b(f, v) = f(v) is a bilinear operator from V* × V to the base field.
• Let V and W be vector spaces over the same base field F. If f is a member of V* and g a member of W*, then b(v, w) = f(v)g(w) defines a bilinear operator V × W → F.
• The cross product in R³ is a bilinear operator R³ × R³ → R³.
• Let B : V × W → X be a bilinear operator, and L : U → W be a linear operator, then (v, u) → B(v, Lu) is a bilinear operator on V × U
• The operator B : V × W → X where B(v, w) = 0 for all v in V and w in W is bilinear

See also

• Multilinear map
• Sesquilinear form

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