mp Co uta & tio d n e a li Jumaboyevich et al., J Appl Computat Math 2018, 7:1 l p M p a Journal of A t h DOI: 10.4172/2168-9679.1000384 f e o m l a a n t r ISSN: 2168-9679i c u s o J Applied & Computational Mathematics Research Article Open Access Great Matrix Equations Jumaboyevich KN*, Yuldashevich AQ and Ugli IOB Department of Mathematics, Faculty of Physics and Mathematics, Urgench State University, Urgench, Uzbekistan Abstract This paper is devoted to some identities of matrix and determinants. In this article, matrices inequalities are widely used. Matrices are non-optimistic. The matrix's determinants have been proven. In addition to the left module and the right module descriptions in this article. In general, this article is devoted to matrix approximation. Keywords: Matrix; Equation; Inequality; Number; Algebraic (theoretically) and well-developed is the theory of Jordan normal operations; Matrix multiplication; Triangular matrices forms. In practice, however, such normal forms are used that have additional properties, for example, resistance [19]. Introduction The concept of matrix algebra is important in modeling the systems. Matrix is a mathematical object, written in the form of a Planning issues, gross product, total labor costs, pricing, and other rectangular table of ring or field elements (for example, integers, real issues, and the use of computers in them, will lead to the matrix algebra. numbers or complex numbers), which is a collection of rows and Production planning should be based on a well-organized system of columns, at the intersection of which are its elements. The number information, in the formulation of existing links between material of rows and columns determines the size of the matrix. Although production and others. This systematic information system is presented historically considered, for example, triangular matrices [1], now in the form of specific tables. Thus, the matrix's interpretation is quite they speak exclusively about matrices of rectangular shape, since they extensive. In today's article, we create the theoretical theorems about are the most convenient and common. Matrices are widely used in the approximation of the matrix characteristics and matrices. Using mathematics for the compact recording of systems of linear algebraic proven theorems, we create mathematical comprehension patterns or differential equations. In this case, the number of rows of the with each other [20]. We know that matrices and determinants are one matrix corresponds to the number of equations [2-4], and the number of the main parts of algebra numbers. of columns to the number of unknowns. As a result, the solution of systems of linear equations reduces to operations on matrices. For C [mxm] we define a set of matrices that are all elements of this the matrix the following algebraic operations are defined: Addition of form m-matrix order. matrices having the same size, multiplication of matrices of a suitable size (a matrix having display style n) n columns can be multiplied from Module of Matrix the right by a matrix having (display style in rows) [5-8], including Theorem 1.1 multiplication by the matrix of the vector (according to the usual rule ∀∈ ∈= of matrix multiplication, the vector is in this sense a particular case of Ai Cmm[,]matrices and aj Rj1, n For real numbers, the the matrix), multiplication of the matrix by an element of the base ring following matrix is valid. 2 or field (that is, a scalar). Relative to the addition of a matrix form an n n n n nn22 n 2 22 Abelian group [9-12]; if we also consider multiplication by a scalar, ∑∑akjjkj aA−= A ∑ a ∑ a j ∑∑ a kk A − ∑ aA kk (1) then the matrices form a module over the corresponding ring (the k=1 j = 1 j= 1 j= 1 kk = 11 = k= 1 vector space over the field). The set of square matrices is closed with In this theorem: -left or right module the left and right modules respect to matrix multiplication; therefore square matrices of the same of the matrix are introduced as follows size form an associative ring with a unit with respect to matrix addition and matrix multiplication [13-16]. = * - right module AR AA It is proved that to every linear operator acting in an n-dimensional A= AA* - left module. linear space one can associate a unique square matrix of order n; and L conversely - for each square matrix of order n, a single linear operator The result: ∀∈Ai Cmm[,]matrices and ∀∈ai �,( in = 1. ) for the acting in this space can be associated. The properties of the matrix real numbers correspond to the properties of the linear operator. In particular, the eigenvalues of the matrix are the eigenvalues of the operator corresponding to the corresponding eigenvectors [17]. *Corresponding author: Jumaboyevich KN, Department of Mathematics, Faculty of Physics and Mathematics, Urgench State University, Urgench, Uzbekistan, Tel: The same can be said about the representation of bilinear +351932183080; E-mail: [email protected] (quadratic) forms by matrices [2]. Received December 27, 2017; Accepted January 24, 2018; Published January In mathematics, many different types and types of matrices 30, 2018 are considered. These are, for example, a single, symmetric, skew- Citation: Jumaboyevich KN, Yuldashevich AQ, Ugli IOB (2018) Great Matrix symmetric, upper triangular (lower triangular), etc. matrix [18]. Equations. J Appl Computat Math 7: 384. doi: 10.4172/2168-9679.1000384 Of particular importance in the theory of matrices are all possible Copyright: © 2018 Jumaboyevich KN, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which normal forms, that is, the canonical form, to which the matrix can permits unrestricted use, distribution, and reproduction in any medium, provided be reduced by the replacement of coordinates. The most important the original author and source are credited. J Appl Computat Math, an open access journal Volume 7 • Issue 1 • 1000384 ISSN: 2168-9679 Citation: Jumaboyevich KN, Yuldashevich AQ, Ugli IOB (2018) Great Matrix Equations. J Appl Computat Math 7: 384. doi: 10.4172/2168-9679.1000384 Page 2 of 3 Where A =A-λI I- unity matrix. nn n 2 λ 2 2 ∑∑ai A i−≥ ∑ aA ii 0 According to the fundamental theorem of algebra, this equation ii=11 = i= 1 has the root. Let this equation be as follows Inequality is reasonable. In this A≥0, A indicates that the matrix is {λ1, λ2, λ3, λn} positive. Then the following equation corresponds to the optional λ ∀λ ∈ λλλ⋅⋅⋅ λ Prove of the theorem 1: C \{123 , , ,n } det (Aλ)≠0. It follows from the of n n = = 2 We look at this view: A∑ aAjj, aa∑ j Aλ inverse. j=1 j=1 Condition 3 We know this equation * det(I+=+ A B ) det( I BA ) nn λλ 2 *** A=+= AA AA A∑∑ ajj A + ajj A A = equality is appropriate. jj=11= n Using the determinant's continuous function, λ →0 and we will ** create the following: =∑(aAAj j + aAA jj ) j=1 limdet(IAB+=λλ ) det lim( IAB +=+ ) det( IAB ) λλ→→00 In that case limdet(I+= BAλλ ) det lim( I +=+ BA ) det( I BA ) λλ→→00 nn 2 ** ∑∑aAkk− Aa =( aA kkkk − Aa)( aA −= Aa) So the following equation is appropriate kk=11= n det(I+= AB ) det( I + BA ) . =2* −− * * + 2 * = ∑(ak AA a k aAA k aa kk A A a A kk A ) Condition 4 k =1 nn 221. Equality has been proven for private by the method [3]. For * *2 * =−aA a∑∑( aAAk ++ aAA kk ) a Ak = example: for A=Z,B=Z kk=11= Annex 1: Eqn. (5) is proved differently. nn 22222 2 22 aA−−+22 aA aA a∑∑ Akk = a A −= aA Annex 2: For A,B C[mXm] equality AB=BA, in general it is not kk=11= appropriate. We have demonstrated that this equality is appropriate, n n nn n 2 ∀ ∈ 22 2 using several methods det(I+AB)=det(I+BA). =a a A −= A a22 a A− aA ∑k ∑j ∑∑ k k ∑ kk k=1 j=1 kk = 11 = k= 1 Conclusion Theorem proved. In summary, it must be said that equality in the world has been Theorem 1.2 proven in other literature. However, the proofs in this article are based on new methods. The equality in this article is the proof of the common ∀∈AB,[] Cm × m For matrices, the following equation holds. cause. At the current stage of our society development of the national economy systematically studying the laws and trends in the economy det(I+AB)=det(I+BA) Prove of the theorem№2: Consider the mathematical modeling is a powerful logical tool. Improve the negative following situation consequences of the financial and economic crisis qualification in Condition 1 economics and mathematics experts play an important role. It aims to explore areas of the economy through computer technology, to identify A-matrix contradictory or detA≠0. the condition of studied objects, to predict them, the ability to develop We write the following equations: and adopt scientifically-based management decisions will give. Thus, it is optimal in the national economy and sectors The major part of I+AB=AA-1+AB=A(A-1+B) decision making is economic mathematical modeling based on the I+BA=A-1A+BA=(A-1+B)A goal of the ongoing global economic reforms Increasing productivity, wise from scarce resources use, innovation in production increasing Now let's write them down in the form below Det(I+AB)=detA(A- 1 -1 the competitiveness of products is composed of The global financial +B)=detAdet(A +B) and economic crisis is the solution of these priorities and uncertainty det(I+BA)=det(A-1+B)A=det(A-1+B)detA arising in the market economy production companies and firms in the conditions of risk The rational use of scarce resources, analysis of So the following equation is appropriate.