WHAT ENGINEERING, SCIENCE, AND TECHNOLOGY STUDENT SHOULD KNOW

WHAT ENGINEERING, SCIENCE, AND TECHNOLOGY STUDENT SHOULD KNOW

          From the dawn of history, the development of technical knowledge has been accompanied, and to a large extent made possible, by a corresponding graphic language. Today the intimate connection between engineering and science and the universal graphic language is more vital than ever before, and engineers, scientists, and technicians ignorant of or deficient in their field’s principal mode of expression in technical field are professionally illiterates. Thus, training in the application of technical drawing is required in virtually every engineering school in the world.

          The old days of fine-line drawings and of shading and “washes” are gone forever, artistic talent is no longer prerequisite to learning the fundamentals of the graphic language. Instead, today’s graphics student needs the same aptitudes, abilities, and computer skills that are needed in science and engineering courses.

          The well-trained engineering, scientist, or technician must be able to make and correct graphical representations of engineering structures, designs, and data relationships. This means that individuals must understand the fundamental principles, or the grammar, of the language and be able to execute the work with reasonable skill (which is penmanship).

          Graphics students often try to excuse themselves for inferior results (usually caused by lack of application) by arguing that after graduation they do not expect to do any drafting at all. Such students presumptuously expect, immediately after graduation, to be accomplished engineers concerned with bigger things. They forget that first assignment may involve working with drawings and possibly revising drawings, either on a board or on a computer, under the direction of an experienced engineer. Entering the engineering profession via graphics provides an excellent opportunity to learn about the product, the company operations, and the supervision of others.

          Even a young engineer who has not been successful in developing a skillful penmanship in the graphic language will have use for its grammar, since the ability to read a drawing will be of utmost importance. Furthermore, the engineering student is apt to overlook that, in practically all the subsequent courses taken in college, technical drawing will be encountered in most textbooks. The student is often called on by instructors to supplement calculations with mechanical drawings or sketches. Thus, a mastery  of a course in technical drawing utilizing both traditional methods and computer systems(CAD) will aid materially, not only in professional practice after graduation but more immediately in other technical courses.

          Beside the direct advantages of a serious study of the graphic language, many students learn the meaning of neatness, speed, and accuracy for the first time in a drawing course. These are basic and necessary habits for every successful engineer, scientist and technician.

          The ability to think in three dimensions is one of the most important requisites of successful scientists, designers, and engineers. Learning to visualize objects in space, to use the constructive imagination, is one of the principal values to be obtained from a study of the graphic language. Person of extra-ordinary creative ability possess the ability to visualize to an outstanding degree. It is difficult to think of Edison, De forest, or Einstein as being deficient in constructive imagination.

                                                                                                                             Source: Engineering Graphics by Giesecke and co.

Written by Ampeh Justice

Jxticea@gmail.com.

GTUC, Tesano.