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Determinants and their properties

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THE MINISTRY OF EDUCATION AND SCIENCE

OF THE REPUBLIC OF KAZAKHSTAN

S.Seifullin Kazakh Agro Technical University

A.B. Aruova

Educational- methodical complex

On the Mathematics

For students of specialty 5B071900 «Biotechnology»

Аstana

LECTURE 1.

Elements of linear algebra. Matrices. Determinants. Systems of linear equations

Determinants and their properties

Consider the system of two linear algebraic equations in two variables:

(1)

 

where a 11, a 12, a 21, and a 22 are coefficients, b 1 and b 2 are right-hand sides, and x 1 and x 2 are unknowns.

Let us solve this system by the school method of algebraic addition, namely, multiply the first and second equations by а 22 and – a12, respectively, and sum the results. The coefficient of х 2 will vanish. The remaining unknown, х 1, is found as follows:

 

x 1(a 11 a 22a 12 a 21)= b 1 a 22a 12 b 2,

 

In a similar manner, multiplying the first equation of the system by – а 21, the second by а 11 , and summing the resulting equations term by term, we obtain

 

,

 

Definition 1. The number

 

is called a determinant of second order.

The numbers a 11 ,a 12 ,a 21 and a 22 are called the elements of the determinant.

The second-order determinant is equal to the product of the elements of the main diagonal minus the product of the elements of the secondary diagonal.

The unknowns х 1 and х 2 of the linear system (1) are determined by the formulas

 

 

The determinant D is called the principal determinant of the system; it is formed by the coefficients of the unknowns. D x 1 andD x 2are auxiliary determinants; they are obtained by replacing the elements of the first and second columns by the free terms of system (1).

A third-order determinant is the number

The simplest method for calculating a third-order determinant is the triangle rule.

The main diagonal of the determinant is the line containing the elements a 11, a 22 and a 33. The secondary diagonal is the line containing the elements a 13, a 22 and a 31.

The products of the main diagonal elements and of the elements contained in the triangles shown below are summed with the plus sign:

The products of the secondary diagonal elements and of the elements contained in the triangle shown below are summed with the minus sign:

.

Another method forcalculating a third-order determinant is as follows. We write the first columns on the right of the determinant, and sum the products of the elements of the main diagonal and of the two parallel diagonals with the plus sign. Then we add the products of the elements of the secondary diagonal and of the two parallel diagonals with the minus sign

+ + +

– – –

As a result, we obtain the determinant.

Properties of determinants. All determinants of any order have the same properties. For simplicity, we give only properties of third-order determinants.

1. The interchange of rows and columns in a determinant does not change its value:

= (the transposed determinant).

2.The interchange of two rows (columns) in a determinant changes only the sign of the determinant:

.

3. If all elements of any lines (a row or a column) are zero, then the determinant is equal to zero:

4. A determinant containing two equal lines is equal to zero:

=0.

5. The common multiplier of all elements of a line can be factored out:

.

 

6. A determinant containing two proportional lines, is equal to zero:

7. If each element of some line is the sum of two terms, then such a determinant equals the sum of two determinants, which contain these terms instead of the elements of the lines.

 

.

 

8. A determinant does not change under the replacement of any line by the sum of this line and any parallel line multiplied by some number.

Definition 2. The minor of an element аij is the determinant of order lower by one consisting of the elements that remain after the deletion of the i th-series and j th - column, which intersect in aij.

For example, the minor of the element a 32 is

;

is the minor of .

Definition 3. The algebraic complement of an element аij is the minor of aij multiplied by -1 raised to the proper equal to the sum of the numbers of the row and the column intersecting in the given element: .

9. A determinant equals the sum of products of all elements of any lines and the corresponding algebraic complements.

.

For a k th order determinant, we can write property 9 in the form of expansion along the k th-column:

.

10. The sum of the products of the elements of any line and the algebraic complements of the corresponding elements of a parallel line equals zero:

= , if m ¹ k.

Combining properties 9 and 10, we obtain

where is the Kronecker symbol.

 


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