Blade (geometry)
In geometric algebra, a blade is a generalization of the notion of vectors and scalars to include bivectors, trivectors, etc. In detail:[1]
- A scalar or 0-blade of grade 0 is the inner product or dot product of two vectors a and b denoted as:
- A vector is a 1-blade of grade 1.
- A 2-blade of grade 2 is a simple bivector- (sums of 2-blades also are bivectors, but may not be simple), given by the wedge product of two vectors a and b:
- A 3-blade of grade 3 is a trivector, that is, a wedge product of three vectors, a, b and c:
- A k-blade is a blade of grade k.
- The highest grade element in a space is called the pseudoscalar.[2]
- In a space of dimension n, the blade of grade n−1 is called a pseudovector.[3]
In a n-dimensional spaces, there are blades of grade zero through n. A vector space of finite dimension n is related to a pseudoscalar of grade n.[4]
Examples
For example, in 2-dimensional space scalars are described as 0-blades, vectors are 1-blades, and area elements are 2-blades known as pseudoscalars, in that they are one-dimensional objects distinct from regular scalars.
In three-dimensional space, 0-blades are again scalars and 1-blades are three-dimensional vectors, but in three-dimensions, areas have an orientation, so while 2-blades are area elements, they are oriented. 3-blades (trivectors) represent volume elements and in three-dimensional space, these are scalar-like – i.e., 3-blades in three-dimensions form a one-dimensional vector space.
See also
Notes
- ^ Marcos A. Rodrigues (2000). "§1.2 Geometric algebra: an outline". Invariants for pattern recognition and classification. World Scientific. p. 3 ff. ISBN 9810242786. http://books.google.com/books?id=QbFSt0SlDjIC&pg=PA3.
- ^ John A. Vince (2008). Geometric algebra for computer graphics. Springer. p. 85. ISBN 1846289963. http://books.google.com/books?id=3VxZqfm3I_MC&pg=PA85&dq=pseudoscalar+%22highest+grade%22&lr=&as_drrb_is=q&as_minm_is=0&as_miny_is=&as_maxm_is=0&as_maxy_is=&as_brr=0&cd=1#v=onepage&q=pseudoscalar%20%22highest%20grade%22&f=false.
- ^ William E Baylis (2004). "§4.2.3 Higher-grade multivectors in Cℓn: Duals". Lectures on Clifford (geometric) algebras and applications. Birkhäuser. p. 100. ISBN 0817632573. http://books.google.com/books?id=oaoLbMS3ErwC&pg=PA100&dq=%22pseudovectors+%28grade+n+-+1+elements%29%22&lr=&as_drrb_is=q&as_minm_is=0&as_miny_is=&as_maxm_is=0&as_maxy_is=&as_brr=0&cd=1#v=onepage&q=%22pseudovectors%20%28grade%20n%20-%201%20elements%29%22&f=false.
- ^ David Hestenes (1999). New foundations for classical mechanics: Fundamental Theories of Physics. Springer. p. 54. ISBN 0792353021. http://books.google.com/books?id=AlvTCEzSI5wC&pg=PA54.
General references
External links