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Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com PDF Download

Addition and Subtraction of Matrices

  • A + B = B + A
  • (A + B) + C = A + (B + C)
  • k (A + B) = kA + kB

Multiplication of matrices

  • AB ≠ BA
  • (AB) C = A (BC)
  • Distributive law
    A (B + C) = AB + AC
    (A + B) C = AC + BC
  • Multiplicative identity
    For a square matrix A
    AI = IA = A

Proerties of transpose of matrix

  • (AT) T = A
  • (kA)T = kAT
  • (A + B)T = AT + BT
  • (AB)T = BT AT

Symmetric and Skew Symmetric matrices

  • Symmetric Matrix - If AT = A
  • Skew - symmetric Matrix - If AT = A
    Note: In a skew matrix, diagonal elements are always 0.
  • For any square matrix A,
    (A + AT) is a symmetric matrix
    (A − AT) is a skew-symmetric matrix

Inverse of a matrix
For a square matrix A, if
AB = BA = I
Then, B is the inverse of A
i.e. B = A−1
We will find inverse of a matrix by

  • Elementary transformation
  • Using adjoint

Properties of Inverse

  1. For a matrix A,
    A1 is unique, i.e., there is only one inverse of a matrix
  2. (A −1) −1 = A
  3. (𝑘 𝐴)−1 = 1/𝑘 𝐴 −1
    Note: This is different from
    (kA)T = k AT
  4. (A -1) T = (AT)-1
  5. (A+B)-1 = A-1 + B-1
  6. (𝐴𝐵)−1 = 𝐵−1 𝐴−1

Important things to note in Determinants

  1. Determinant of Identity matrix = 1
    det (I) = 1
  2. |AT | = |A|
  3. |AB| = |A| |B|
  4. |A −1 | = 1/|𝐴|
  5. |kA| = kn |A| where n is order of matrix
  6. Similarly,
    |−A| = |−1 × A|
    = (−1)n × |A|
  7. (adj A) A = A (adj) = |A|I
  8. Deteminant of adj A
    |"adj A| = |A | 𝑛−1
    where n is the order of determinant

Number multiplied to matrix and determinant

Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com

Problems and Solution.
Problems 1. 
Let Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com Notice that A contains every integer from 1 to 9 and that the sums of each row, column, and diagonal of A are equal. Such a grid is sometimes called a magic square. Compute the determinant of A.
Solution. We compute using the first row cofactor expansion
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com

Problems 2. Let A and B be n×n matrices, where n is an integer greater than 1. Is it true that det(A+B) = det(A) + det(B)?
If so, then give a proof. If not, then give a counterexample.
Solution.
We claim that the statement is false.
As a counterexample, consider the matrices
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Then
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
and we have
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
On the other hand, the determinants of A and B are
det(A) = 0 and det(B) = 0,
and hence det(A) + det(B) = 0 ≠ 1 = det(A+B).
Therefore, the statement is false and in general we have
det(A+B) ≠ det(A) + det(B).

Problems 3. LetFormula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com  Find all values of x such that A is invertible.
Solution.A matrix is invertible if and only if its determinant is non-zero.
So we first calculate the determinant of the matrix A.
By the first column cofactor expansion, we have
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
= 2((7 + x)x − (−3)4) = 2(x+ 7x + 12)
= 2(x + 3)(x + 4).
Thus the determinant of A is zero if and only if x = −3 or x = −4.
Therefore the matrix A is invertible for all x except x = −3 and x = −4.

Problems 4. Let Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com be a 4×4 matrix. Find all values of x so that the matrix A is singular.
Solution. We use the fact that a matrix is singular if and only if the determinant of the matrix is zero. We compute the determinant of A as follows.
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
by the first column cofactor expansion
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
by the first column cofactor expansion
= −1 + x2.
Therefore we have det(A) = x2−1. Thus det(A)=0 if and only if x = ±1.
We conclude that the matrix A is singular if and only if x = ±1.

Problems 5. Find all the values of x so that the following matrix A is a singular matrix.
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Solution. Note that a matrix is singular if and only if its determinant is zero.
So we compute the determinant of the matrix A as follows.
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
by the third row cofactor expansion
= 0+(x−2)+(3x−2x2)
= −2x2+4x−2.
Thus the determinant of A is zero if
det(A) = −2x2+4x−2=0,
equivalently,
x2−2x+1=(x−1)2=0.
Thus, the determinant of the matrix A is zero if and only if x = 1.
Hence the matrix A is singular if and only if x = 1.

Problems 6. Find the value(s) of h for which the following set of vectors
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com is linearly independent.
Solution. Let us consider the linear combination
x1v1 + x2v2 + x3v3 = 0.     (*)
If this homogeneous system has only zero solution x1 = x2 = x3 =0, then the vectors v1,v2,v3 are linearly independent.
We reduce the augmented matrix for the system as follows.
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
From this, we see that the homogeneous system (*) has only the zero solution if and only if
2h+ 3h + 1 ≠ 0.
Since we have
2h2+3h+1=(2h+1)(h+1),
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
In summary, the vectors v1,v2,v3 are linearly independent for any h except Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com

Problems 7. Let A be a 3×3 matrix.
Let x,y,z are linearly independent 3-dimensional vectors. Suppose that we have
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Then find the value of the determinant of the matrix A.
Solution. Let B be the 3×3 matrix whose columns are the vectors x,y,z, that is,
B = [xyz].
Then we have
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Then we have
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
(If two rows are equal, then the determinant is zero. Or you may compute the determinant by the second column cofactor expansion.)
Note that the column vectors of B are linearly independent, and hence B is nonsingular matrix. Thus the det(B)≠0.

Therefore the determinant of A must be zero.

Problems 8.  Given any constants a,b,c where a≠0, find all values of x such that the matrix A is invertible if Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Solution.
We know that A is invertible precisely when det(A)≠0. We therefore compute, by expanding along the first row,
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Thus det(A)≠0 when ax2+bx+c≠0. We know by the quadratic formula that ax2+bx+c=0 precisely when
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com
Therefore, A is invertible so long as x satisfies both of the following inequalities:
Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com

The document Formula Sheet and Example - Matrices and Determinants | Business Mathematics and Statistics - B Com is a part of the B Com Course Business Mathematics and Statistics.
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FAQs on Formula Sheet and Example - Matrices and Determinants - Business Mathematics and Statistics - B Com

1. What is a matrix?
A matrix is a rectangular array of numbers, symbols, or expressions arranged in rows and columns. It is used to represent linear equations, transformations, and other mathematical operations.
2. How are matrices added or subtracted?
Matrices can be added or subtracted if they have the same dimensions. To add or subtract matrices, simply add or subtract the corresponding elements in each matrix. The resulting matrix will have the same dimensions as the original matrices.
3. What is the determinant of a matrix?
The determinant of a square matrix is a scalar value that can be calculated using a specific formula. It provides important information about the matrix, such as whether it is invertible or singular. The determinant is denoted by the symbol |A| or det(A), where A is the matrix.
4. How is the determinant of a 2x2 matrix calculated?
For a 2x2 matrix A = [a b] [c d] the determinant is calculated using the formula |A| = ad - bc. Multiply the elements in the main diagonal (a and d) and subtract the product of the elements in the other diagonal (b and c).
5. How do you find the inverse of a matrix?
To find the inverse of a matrix, first calculate the determinant of the matrix. If the determinant is non-zero, then the matrix is invertible. Next, use the formula A^(-1) = (1/|A|) * adj(A), where A^(-1) is the inverse of the matrix A, |A| is the determinant, and adj(A) is the adjugate of A. The adjugate is obtained by taking the transpose of the matrix of cofactors.
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