Engineering mathematics, also known as scientific mathematics, is a branch of traditional applied mathematics mainly dealing with scientific methods and mathematical concepts generally used in industrial and engineering field. It consists of various sub-branches such as computer algebra, linear algebra, discrete mathematics, etc. The main function of engineering mathematics is to provide an exact solution to certain mathematical problems by developing and using numerical techniques.

In engineering mathematics, numerical solutions of mathematical equations are developed using algebraic and geometric procedures. Usually, the equations are related to physical or logical problems and can be solved through the use of appropriate mathematical tools. Most of the problems that can be solved in engineering mathematics are related to scientific, physical and/or mechanical phenomena. Engineers who are working on scientific or technological projects often depend heavily on engineering mathematics.

Engineering mathematics are a great source of information and help. For example, in computer engineering, engineers need to study the mathematical principles and concepts in order to design computer systems. In chemical engineering, engineers need to study the mathematical principles and concepts in order to design chemical processing systems. In mechanical engineering, engineers have to study the mathematical principles and concepts in order to design motor vehicles. In aerospace industry, the mathematical principles and concepts are necessary to design aircraft engines.

Engineering mathematics helps the engineers to develop a better method of solving the problem. Moreover, it helps the engineers to increase the efficiency of their work because it is very hard to solve any given problem if it is not properly understood. Therefore, the mathematical principles and concepts in engineering mathematics have many applications in various fields.

Some of the most important mathematical concepts and principles in engineering mathematics include: calculus, mechanics, statistical mechanics, dynamics, numerical analysis, etc. The application of these concepts in engineering mathematics mainly depends on the application of the calculus, geometric and algebraic procedures. However, different types of engineering mathematics have different application and different type of problems they solve. Different types of applications can be found in mechanics, statistics, electrical, optical, etc. In the process of solving the mathematical problems, one needs to apply different techniques.

There are a number of software programs available in the market which can help the engineers in mastering different engineering mathematics concepts. These programs help to apply several techniques in solving the problems. For example, there are software programs available for mechanical engineering of turbines, there are software programs for aerospace, there are software programs for civil construction, . . . . . . etc. Engineering Mathematics and other software applications are necessary for the success in all sectors of the engineering industry.