Blade (geometry)
Exterior product of vectors / From Wikipedia, the free encyclopedia
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In the study of geometric algebras, a k-blade or a simple k-vector is a generalization of the concept of scalars and vectors to include simple bivectors, trivectors, etc. Specifically, a k-blade is a k-vector that can be expressed as the exterior product (informally wedge product) of 1-vectors, and is of grade k.
In detail:[1]
- A 0-blade is a scalar.
- A 1-blade is a vector. Every vector is simple.
- A 2-blade is a simple bivector. Sums of 2-blades are also bivectors, but not always simple. A 2-blade may be expressed as the wedge product of two vectors a and b:
- A 3-blade is a simple trivector, that is, it may be expressed as the wedge product of three vectors a, b, and c:
- In a vector space of dimension n, a blade of grade n − 1 is called a pseudovector[2] or an antivector.[3]
- The highest grade element in a space is called a pseudoscalar, and in a space of dimension n is an n-blade.[4]
- In a vector space of dimension n, there are k(n − k) + 1 dimensions of freedom in choosing a k-blade for 0 ≤ k ≤ n, of which one dimension is an overall scaling multiplier.[5]
A vector subspace of finite dimension k may be represented by the k-blade formed as a wedge product of all the elements of a basis for that subspace.[6] Indeed, a k-blade is naturally equivalent to a k-subspace, up to a scalar factor. When the space is endowed with a volume form (an alternating k-multilinear scalar-valued function), such a k-blade may be normalized to take unit value, making the correspondence unique up to a sign.