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Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema | Business Mathematics and Statistics - B Com PDF Download

What is Matrix Determinant?

The determinant is a scalar value assigned to a square matrix. Matrices which are not square do not have a determinant. The determinant of a (1x1) matrix is just its value, e.g |4| = 4 Straight lines are used instead of square brackets to denote the determinant. The determinants of (2x2) and (3x3) matrices are straightforward to calculate

A determinant is a property that is unique to matrices. In a way, a determinant is like a magnitude. It gives you some information about the resultant matrix in a matrix multiplication operation. Not all matrices have determinants. It is your task to determine when a matrix will have a determinant, and when it will not. To denote that you are taking a determinant, you can use either of the notations below
det A = |A|
Notice that the second notation is also used to find magnitudes and absolute values, depending on the system. This further supports the claim that a determinant is like a magnitude

How to Find Determinant of a 2x2 Matrix

1. Multiply the entry in the first row and first column by the entry in the second row and second column
If we are finding the determinant of the 2x2 matrix A, then calculate a11 x a22
2. Multiply the entry in the first row and second column by the entry in the second row and first column
If we are finding the determinant of the 2x2 matrix A, then calculate a12 x a21
3. Subtract the second value from the first value 2x2 Matrix

Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema | Business Mathematics and Statistics - B Com

2x2 Matrix Determinant Formula

Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema | Business Mathematics and Statistics - B Com


 

How to Find Determinant of a 3x3 Matrix

1. Extend the matrix by writing the first and second columns again on the right side of the third column
2. Multiply the three entries on the diagonal from the first row and first column entry to the third row and third column entry. If we are finding the determinant of the 3x3 matrix B, then calculate b11*b22*b33
3. Repeat this diagonal multiplication for all three diagonals If we are finding the determinant of the 3x3 matrix B, then calculate b12*b23*b31, and b13*b21*b32
4. Add these products together
5. Multiply the three entries on the diagonal from the first row and third column entry to the third row and first column entry If we are finding the determinant of the 3x3 matrix B, then calculate b13*b22*b31
6. Repeat this diagonal multiplication for all three diagonals If we are finding the determinant of the 3x3 matrix B, then calculate b11*b23*b32, and b12*b21*b33
7. Add these products and subtract the result from the previous total

3x3 Matrix

 

Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema | Business Mathematics and Statistics - B Com
3x3 Matrix Determinant Formula

Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema | Business Mathematics and Statistics - B Com

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FAQs on Calculation of Values of Determinants upto Third Order - Matrices and Determinants, Business Mathema - Business Mathematics and Statistics - B Com

1. How do you calculate the value of a determinant for a 3x3 matrix?
Ans. To calculate the value of a determinant for a 3x3 matrix, you can use the expansion by minors method. Start by multiplying each element in the first row of the matrix by its cofactor, which is the determinant of the 2x2 matrix formed by excluding the corresponding row and column. Then, alternate the signs of the resulting products (+, -, +) and sum them up. This will give you the value of the determinant.
2. Can determinants be negative?
Ans. Yes, determinants can be negative. The sign of a determinant depends on the arrangement of elements in the matrix. If the number of row or column swaps required to convert the matrix into row-echelon form is odd, the determinant will be negative. If the number of swaps is even, the determinant will be positive.
3. What is the significance of the determinant in linear algebra?
Ans. The determinant of a matrix has several important applications in linear algebra. It can be used to determine if a matrix is invertible or singular. If the determinant is non-zero, the matrix is invertible, meaning it has a unique inverse. If the determinant is zero, the matrix is singular, and it does not have an inverse. Determinants are also used to calculate the area of parallelograms, volume of parallelepipeds, and to solve systems of linear equations.
4. Are there any shortcuts or tricks to calculate determinants?
Ans. Yes, there are some shortcuts or tricks to calculate determinants. For example, for a 2x2 matrix, the determinant is calculated by subtracting the product of the elements in the opposite diagonals. Another trick is to use row operations such as scaling or swapping rows to simplify the matrix before calculating the determinant. However, these shortcuts may not always be applicable or efficient for larger matrices.
5. Can determinants be used in real-life applications?
Ans. Yes, determinants have various real-life applications. They are used in computer graphics to determine the orientation of objects, calculate transformations, and solve problems related to rotations and reflections. Determinants are also used in physics to analyze electromagnetic fields, quantum mechanics, and fluid dynamics. In economics, determinants are used to solve input-output models, analyze equilibrium points, and study market dynamics. Overall, determinants have wide-ranging applications in many fields of study and research.
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