Difference between revisions of "Manuals/calci/DYADIC"

Revision as of 15:36, 3 March 2017

DYADIC(a,b)

OR VECTORDIRECTPRODUCT (a,b)

$a$ and $b$ any two set of values.

Description

This function shows the Vector Direct product.
The third type of vector multiplication is called the direct product, and is written AB.
In $VECTORDIRECTPRODUCT(a,b)$ , $a$ and $b$ are the two vectors.
Multiplying one vector by another under the direct product gives a tensor result.
The rectangular components of the direct product may be found by matrix multiplication: one multiplies the column vector A by the transpose of B, which gives a 3X3 matrix:

$AB=AB^{T}$ = ${\begin{pmatrix}A_{x}\\A_{y}\\A_{z}\end{pmatrix}}$ $(B_{x}B_{y}B_{Z})$ = ${\begin{pmatrix}A_{x}B_{x}&A_{x}B_{y}&A_{x}B_{z}\\A_{y}B_{x}&A_{y}B_{y}&A_{y}B_{z}\\A_{z}B_{x}&A_{z}B_{y}&A_{z}B_{z}\end{pmatrix}}$ method

The direct product is non-commutative (AB 6D BA).A few vector product identities are of interest

@@ Line 14: / Line 14: @@
 A_y \\
 A_z
-\end{pmatrix}</math><math> (B_x  B_y  B_Z)</math>=\begin{pmatrix}
+\end{pmatrix}</math><math> (B_x  B_y  B_Z)</math>=<math>\begin{pmatrix}
 A_xB_x & A_xB_y & A_xB_z \\
 A_yB_x & A_yB_y & A_yB_z \\
 A_z B_x &A_zB_y & A_zB_z
-\end{pmatrix}method
+\end{pmatrix}</math>method
 *The direct product is non-commutative (AB 6D BA).A few vector product identities are of interest

Difference between revisions of "Manuals/calci/DYADIC"

Revision as of 15:36, 3 March 2017

Description

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