The term “engineer” stems from the Latin verb agenare, which means “to know.” However, there is much more to life than knowing things and applying them.
The word “engineer” stems from the Latin verb agenare, which means “to know.” Although the word originally had a technical meaning, it eventually became slang for “to do something productive.” By the mid-18th century, the word “engineer” came to mean someone who was specially trained or educated in engineering activities. The notion of an engineer came from the Greek word “ekaterinikos,” which meant “to speak or talk” and mimicked the practical life skills.
The original root of the English word “engineer” was “inho,” which was the term used to describe the engine or the steam engine. The notion of engineers coming from this verb evolved into the knowledge-making professionals.
Universities and government agencies have developed curricula and training materials that impart curricula on engineering activities such as crane operators near me. This is done in order to make the engineering sector more attractive and to make education accessible to students.
Math and science
The immediate predecessors of engineering were agateans, which were mathematical formula. The transformation of agateans to equations and laws came from Hindu texts. Ancient Indian texts, primarily the Vedas, literature and Shastras, began to lay down the laws and order of the universe. Engineering followed in the western culture of mathematics and science.
The laws controlling the universe
The Hindu texts describe the creation of the universe as a chaotic matterless explosion. Another belief is that the universe was designed by Brahman, the god of constancy. Brahman established the cycle of time and was known as the provider of all things and maintaining order in the universe. The Upanishads mention that all of reality was ordered according to the will of Brahman.
The engineering activities in India take the credit for the foundation of modern engineering in India. Vedic engineering, however, is the activity of ancient Indian engineers who were given the task of constructing works in and around mathematics, physics, engineering and technology.
The study of hydrodynamics began in the western world in the 16th century and it was in Europe that the scientific study of hydrodynamics found its way to India. The work of several Indian origin scientists and engineers in the 17th and 18th centuries helped in theimilification of hydrodynamics in Europe.
Gustav Clausula, an architect who designed several Ferris wheel designs and a traffic circle in Uppsala, was able to catch the public’s attention when he proposed the building of a windmill on the condition that the water transferred through a network of canals radiating out from the city. The financial crisis in Europe had hardly begun to stir when the public building material for the windmill was manufactured in Germany.
The credit of building the windmill largely goes to Vlad Constantine, who sent Turkish engineers to construct it. The turbine was 100 meters in diameter and filled with 3 million cubic feet of water, which in a single day, could pump over 1,500 tons of water with a speed of 6 knots. The windmill’s height was 65 meters and it could cover 66,000 square meters. Although it is a wonder of the world, thekanine windmillstill works today, giving Sweden and Finland their claim to have the largest windmill generators.