Uses Of Matrices In Computer Science

In order to guide the students to know the application of matrix in the computer science and technology to stimulate interest in learning.

Uses of matrices in computer science.

The discipline of physics also uses matrices to calculate battery power outputs and resistor conversion of electrical energy into a more efficient form. Application of matrix in the field of computer is too much it is a simple calculation tool can be represented in a simple form and complex form. For an rgb image a 3rd ordered tensor is used. In physics matrices are applied in optics quantum mechanics and electrical circuits.

Imagine it as three 2d matrices stacked one behind another. Computer science also relies heavily on matrices. They allow computers to in effect do a lot of the computational heavy lifting in advance. Matrix mathematics applies to several branches of science as well as different mathematical disciplines.

Cryptography is also implemented using matrices. In reality instead of using 3 matrices to represent an image a tensor is used. Matrices are used to solve problems involving kirchoff s laws of voltage and current. Let s start with computer graphics then touch on science and return to mathematics.

This paper gives several examples about computer science and technology to answer by using matrix method. For example the dimension of the matrix below is 2 3 read two by three because there are two rows and three columns. Creating a matrix that yields useful computational results may be difficult but performing matrix multiplication generally isn t. In mathematics a matrix plural matrices is a rectangular array or table see irregular matrix of numbers symbols or expressions arranged in rows and columns.

Scholastic matrices are used by page rank algorithms. But that points to one of the reasons that matrices are so common in computer science. Matrices used in computer graphics every one of us uses matrices nearly everyday in our lives and probably unaware of it. Matrices are commonly used in computers for their 3d graphics.

Provided that they have the same size each matrix has the same number of rows and the same. Most of the matrices that are used are either 3x3 or 4x4 matrices and are computed by either rotation matrices or translation matrices. A tensor is a generalized n dimensional matrix. We see the results of matrix mathematics in every computer generated image that has a reflection or distortion effects such as light passing through.

In computer science matrices are used in the projection of three dimensional images into two dimensional screens.