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Minors and cofactors are one of the most important concepts of the determinants. Minors and Cofactors are important as they help to find out the determinant of large square matrix. The knowledge of Minors and Cofactors helps to determine the adjoint as well the inverse while calculating the determinant of a square matrix. Cofactor Expansion is the term defined for such computation of the determinant.
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Read More: Real Numbers Formula
Key Terms: Element of a determinant, square matrix, Minors, Cofactors, Determinants, Cofactor Expansion
What are Minors?
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Minor is defined as the value calculated from the determinant of a square matrix. It is calculated by crossing the rows and columns corresponding to the given element. Minor of an element such as ayz of a determinant can be finding out by deleting its yth row and zth column in which the element ayz lies. Minor of an element ayz can be represented as Myz.
Minor of an element of a determinant of the order n(n≥3) is the determinant of the order n-2.
Example 1.
Find the minor of an element 5 in the determinant:
Solution. Element 5 lies in the 2nd row and 2nd column. So, its Minor will be M22.
M22 = = 9-21 = -12( obtained by deleting R2 and C2 in the ?)
Example 2.
Find the minors of the elements in the determinant:
Solution. Minor of the element M11 = 15 – 12 = 3
Minor of the element M12 = -5 + 8 = 3
Minor of the element M13 = 3 – 6 = -3
Minor of the element M21 = -10 + 12 = 2
Minor of the element M22 = 5 – 8 = -3
Minor of the element M23 = -3 + 4 = 1
Minor of the element M13 = 3 – 6 = -3
Minor of the element M23= -3 + 4 = 1
Minor of the element M33= 3 – 2 = 1
Discover about the Chapter video:
Determinants Detailed Video Explanation:
Read more: Determinant of a Matrix
What are Cofactors?
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Cofactor is known as the signed minor. Cofactor of an element, ayz, denoted by Ayz, is defined by A= (-1)y+zM, where M stand for Minor of ayz.
Some important rules:
- If the sum of y+z is even, then Ayz = Myz.
- If the sum of y+z is odd, then Ayz = -Myz.
- It shows that the difference between the related minors and cofactors are only in the terms of sign.
The value of determinant of order three can be in the terms of minors and cofactors can be defined as:
D= a11M11 - a12M12 + a13M13 or
D= a11C11 - a12C12 + a13 C13
A determinant having order 3 will result in 9 minors and each minor will be a determinant of order 2. Similarly, a determinant of order 4 will have 16 minors, and the determinant will be of order 3.
If cofactor is multiplied to different rows/columns, their sum will be zero.
Example.1: Find minors and cofactors of the determinant:
Solution. Minor of the element ayz is Myz.
Here, a11= 1. So, minor of M11 = 3
a12 = 2, M12 = 4
M21 = 2, M22 = 1
Now, cofactor of ayz is Ayz.
A11=( -1)1+1 = (-1)2(3)= 3
A12 = (-1)1+2 = (-1)3(4) = -4
A21 =( -1)2+1 = (-1)3 (2) = -2
A22 = (-1)2+2 = (-1)4 (1) = 1
Example.2: Find minor and cofactors of the determinant:
Solution. M11 = = -20, A11 = (-1)1+1(-20) = -20
M12 = 46 , A12 = -46
M13 = 30 , A13 = 30
M21 = -46 , A21 = 46
M22 = -19 , A22 = -19
M31 = 7 , A32 = -7
M33 = -18 , A33 = -18
Example.3: Find the cofactor of a11 in the following determinant, D=
Solution. Here a12 = -3, so Minor, M12 = = 42 – 4 = - 38
Cofactor of (-3) will be , A12 = (-1)1+2 ( -38) = (-1)(-38) = 38
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Things to Remember
- Minors and cofactors are one of the most important concepts of the determinants.
- Minors and Cofactors are important as they help to find out the determinant of large square matrix.
- The knowledge of Minors and Cofactors helps to determine the adjoint as well the inverse while calculating the determinant of a square matrix.
- Cofactor Expansion is the term defined for such computation of the determinant.
- Cofactor is known as the signed minor.
- Cofactor of an element, ayz, denoted by Ayz, is defined by A= (-1)y+zM, where M stand for Minor of ayz.
- Minor of an element of a determinant of the order n(n≥3) is the determinant of the order n-2.
- If the sum of y+z is even, then Ayz = Myz.
- If the sum of y+z is odd, then Ayz = -Myz.
- It shows that the difference between the related minors and cofactors are only in the terms of sign.
Read more: Symmetric Matrix
Sample Questions
Ques. 1: If Δ= , then write the minor of the element a23 . (2 marks)
Answer: Minor of the element a23=
M23=10−3=7
Ques.2: Find the minors of elements of second row of determinant: (2 marks)
Answer: Determinant A= = 0
Minor of elements of Second Row can be given as-
Minor of a21(3), A21= =27−32 =5
Minor of a22(6), A22= =18−4 =14
Minor of a23(5), A23==16−3 =13
Ques.3: If Δ=, write the minor of the elements a22 . (2 marks)
Answer: Minor of a22=
a22 =8−15
a22 = −7
Ques.4: If Δ = , then write the minor of the Element a23.
Answer: For Δ = ,
Minor of the element
a23 =
= 10-3
=7
Ques.5: If Aij is the cofactor of the element aij of the determinant , then write the value of a32 * A32. (2 marks)
Answer: Given that-
A = =
Here, a32 = 5
Given,
Aij = (-1)3+2
= (-1)3+2 (8 – 30)
= – (-22)
= 22
Hence, a32 * A32 = 5* 22 = 110
Ques. 6: If Δ = , write:
(i) the minor of the element a23
(ii) the co-factor of the element a32 (2 marks)
Answer: (i) a23 =
= (5) (2) – (1) (3)= 10 – 3 = 7.
(ii) a32 = (-1)3+2
= (-1)5 [(5)(1)- (2)(8)]
= (-1)5 (5- 16)
= (-1) (-11)
=11
Ques.7: What is Minor ? (1 mark)
Answer: Minor in a determinant of a matrix is defined as the matrix which is obtained by deleting rows and columns in which the particular element lies( element of which we have to determine minor).
Ques.8: How is a cofactor calculated of a determinant? (1 mark)
Answer: Cofactor is determined by the basic formula of Ayz = (-1)y+z (Myz) where y is the row in which the element lies and denotes the column of the element.
Ques.9: How many minors will a determinant of order 4 have? (1 mark)
Answer: A determinant having an order 4 will have 16 minors and each minor will be a determinant of order 3.
Ques.10: What is the value of the cofactor if it is multiplied to different row/column elements? (1 mark)
Answer: If any cofactor is multiplied to different row/column elements, then it will result in having zero value.
Ques.11: How are minors and cofactors different based on sign properties? (1 mark)
Answer: Minors and cofactors have related difference in the means of sign. If the sum of y+z in a determinant is even, then the cofactor has same sign as that of minor. If the sum of y+z is even, then cofactor will be of opposite sign as that of minor.
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