Linear algebra is central to almost all areas of mathematics. The study of matrix linear algebra cramer’s rule pdf first emerged in England in the mid-1800s. Theory of Extension” which included foundational new topics of what is today called linear algebra. Crucially, Cayley used a single letter to denote a matrix, thus treating a matrix as an aggregate object.
He also realized the connection between matrices and determinants, and wrote “There would be many things to say about this theory of matrices which should, it seems to me, precede the theory of determinants”. 1900, a theory of linear transformations of finite-dimensional vector spaces had emerged. Gaussian elimination and matrix decompositions, and linear algebra became an essential tool for modelling and simulations. Linear algebra first appeared in American graduate textbooks in the 1940s and in undergraduate textbooks in the 1950s. 12th grade students to do “matrix algebra, formerly reserved for college” in the 1960s. This was met with a backlash in the 1980s that removed linear algebra from the curriculum.
Linear Algebra Curriculum Study Group recommended that undergraduate linear algebra courses be given an application-based “matrix orientation” as opposed to a theoretical orientation. To better suit 21st century applications, such as data mining and uncertainty analysis, linear algebra can be based upon the SVD instead of Gaussian Elimination. The main structures of linear algebra are vector spaces. Linear algebra is concerned with properties common to all vector spaces. Similarly as in the theory of other algebraic structures, linear algebra studies mappings between vector spaces that preserve the vector-space structure.
Because an isomorphism preserves linear structure, two isomorphic vector spaces are “essentially the same” from the linear algebra point of view. Linear transformations have geometric significance. Thus, a set of linearly dependent vectors is redundant in the sense that there will be a linearly independent subset which will span the same subspace. One often restricts consideration to finite-dimensional vector spaces. Matrix theory replaces the study of linear transformations, which were defined axiomatically, by the study of matrices, which are concrete objects.
This major technique distinguishes linear algebra from theories of other algebraic structures, which usually cannot be parameterized so concretely. In general, the action of a linear transformation may be quite complex. Attention to low-dimensional examples gives an indication of the variety of their types. Because operations like matrix multiplication, matrix inversion, and determinant calculation are simple on diagonal matrices, computations involving matrices are much simpler if we can bring the matrix to a diagonal form.