Difference between revisions of "Minors and cofactors"
From Robotics
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Multiplying the minor with <math>(-1)^{i+j}</math> results in the '''cofactor <math>C_{ij}(\mathbf{A})</math>''':<br/><br/> | Multiplying the minor with <math>(-1)^{i+j}</math> results in the '''cofactor <math>C_{ij}(\mathbf{A})</math>''':<br/><br/> | ||
− | <math>C_{i,j}(\mathbf{A})=(-1)^{i+j}M_{ij}(\mathbf{A})</math | + | <math>C_{i,j}(\mathbf{A})=(-1)^{i+j}M_{ij}(\mathbf{A})</math> |
{{Example | {{Example | ||
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:<math>C_{31}(\mathbf{A}_3)=(-1)^{3+1}M_{31}(\mathbf{A}_e)=(-1)^4\cdot-1=-1</math> | :<math>C_{31}(\mathbf{A}_3)=(-1)^{3+1}M_{31}(\mathbf{A}_e)=(-1)^4\cdot-1=-1</math> | ||
}} | }} | ||
− | |||
{{Example | {{Example |
Latest revision as of 18:10, 13 November 2015
← Back: Determinant of a matrix | Overview: Matrices | Next: Matrix inversion → |
The minor of an n-by-n square matrix
is the determinant of a smaller square matrix obtained by removing the row
and the column
from
.
Multiplying the minor with results in the cofactor
:
![]()
The minors The corresponding cofactors in that case are |
![]() This example uses the transformation matrix The minors
|