Meaning: It means drawing your computer on the computer screen. Depending on the materials used, changing patterns can be easy or difficult: you can easily remove the lead or the carbon market and use oil paintings to be easily resolved. But changing colors or permanent brands is more difficult.
Some of the application of Computer graphics
Computer Biology: It is a transdisciplinary field. The focal point of computer science is the development of techniques for mathematical modeling and computational simulation.
Computer Physics: Quantum theory is the study and application of computational physics to solve numerical algorithms and algorithms to solve existing physical problems. It is often a disciplinary subject of theoretical physics, but some believe that it is a branch of theoretical and experimental physics.
Scientific visualization: It is based on the use of graphics computers to create visual images, the complexity of concepts or scientific results, often massive, to understand the numerical representation.
Graphic Design: The graphic design term is a multidisciplinary artistic and professional discipline focused on visual communication and presentation. It refers to the process (design) that is often generated by products that are often created (design).
Computer-aided design: It is a computer-based design technology that is real or virtual. The design of geometric modes, object forms, in particular, is often called computer-based geometric design (CAGD). CAD is widely used in the production of computer animation to create special effects for movies, advertising, technical manuals.
Web design: web design skills are generally designed for the presentation of hypermedia or hypermedia content through a web browser through a user of the World Wide Web.
Reason for the importance of Computer graphics
There is a problem with selling a product because of its design. Often, when customers buy products, they are based on containers instead of content. Psychologically, the attractive image immediately transmits the notion of quality content.
Software industries do not meet the trend. The analysis of expanded modeling software (CAD, CAE, CAM) shows that the visualization is not very thought out, as these systems do not advance advanced 3D graphics technologies, such as computer games.
Modeling and computer simulation engineers typically limit advanced graphics display strategies based on simple 3D technology (OpenGL and DirectX); provide improvements for the development of computational algorithms and related mechanisms.
Low-quality results indicate that all possible buyers will be blocked, engineers or individual clients, and there is no argument for the accuracy of the results to avoid them. Also, low-performance speeds are disorganized and clumsy calculations.
The importance of computing is in its applications. In engineering applications (for example, automotive and airspace), it is essential to see new creations quickly. Before the arrival of graphics computers, the designers built expensive prototypes and clean mud models. Nowadays, designers can view and modify their interactive form models using a computer.
The graphic image of a medical device was useful as another application. Recent advances in technology, such as computed tomography and magnetic resonance, make it possible for doctors to make the X-rays 3D human body. An interactive graphics computer enables the doctor to interpret new and useful data.
Graphics computers have also expanded the limits of art and entertainment. Films have taken advantage of graphics computers to create images that limit their imagination. The development of computer science has been a virtual reality, the synthetic reality that exists within a computer. Virtual reality is becoming an essential tool for education. Flight simulators are used to train pilots in extreme conditions. The surgical simulator is preparing new surgeons without endangering the patient.
