Importance Of Mathematics
Mathematical thinking is a very significant factor in a modern society as a habit of mind for its usage at the workplace, business and finance; and for personal decision-making. Mathematics is essential for the prosperity of a nation in providing devices for comprehending science, engineering, technology and other related subjects. It is a very important tool in public decision-making and for involvement in the knowledge economy. Mathematics provides students with great and powerful ways to describe analyze and transform the world. It has the power to create moments of pleasure and wonder for all students when they solve a problem for the very first time, discover a better solution, or observe hidden links. Pupils who are very good at mathematics and capable of intelligent thinking are able to think independently in applied and abstract ways, and can reason, solve problems and calculate risk. In fact education should always begin with mathematics because it creates well designed brains that are capable of reasoning right. It is even proved that those who have learned math from their childhood should be trusted, for they have procured solid foundation for arguing which becomes to them a kind of second nature.
Mathematics has been a very important part of human life from pre historic times. All segments of Mathematics have its own independent applications to a wide variety of jobs. For instance, Algebra is a very significant part of computer science, cryptology and computer networking. Calculus (including differential equations) is widely utilized in Computer Engineering, network modeling in Business and Economics sectors etc. The competition and the opportunities in the corporate world can become a major issue for students if they are not good at Math, since then they are turning away from the many career options that need Mathematics.
Information Technology field is very much indebted to Mathematics. The capability to think and communicate mathematically always benefits software programmers, although in modest ways.
Mathematically rooted components of computer science—for instance, computational complexity and algorithm implementation, and formal methods etc require good mathematical abilities. So, programmers seem to value sections of computer science that relate highly on mathematics more highly than they value pure mathematics. This point to a very important aspect of our education that ‘mathematics disconnected from computing’ is exactly what most undergraduate computing syllabus teaches. In school, students seldom use mathematics in software development or programming classes. It is no wonder that such treatment provides students with less inspiration to use math directly to computing problems, let alone with any practical capability to use math. Computer science has a significant mathematical portion, which is becoming more significant as the designers of software are required to prove that the software meets its specification.