Electrical engineers design new and better electronics. They also test equipment and solve problems. A project starts by deciding what the new electronics will do. Then, the engineer designs the circuits and other parts of the electronics. Engineers might draw their designs using a computer. Electrical engineers design, develop, test, and supervise the manufacture of electrical equipment. Some of this equipment includes electric motors; machinery controls, lighting, and wiring in buildings; automobiles; aircraft; radar and navigation systems; and powergenerating, controlling, and transmission devices used by electric utilities.
Civil engineers jobs plan, design, construct, operate and maintain roads, bridges, dams, water supply schemes, sewerage systems, transportation, harbours, canals, dockyards, airports, railways, factories and large buildings. Consulting and contracting engineers often travel interstate and some travel overseas. It may be necessary for some civil engineers to change residence every few years as their work takes them from one major engineering site to another. Engineers should be creative, curious, analytical, and detailoriented. They may work in offices or spend much of their time on site. They may be required to work long hours and meet strict deadlines while working under minimal supervision. Civil engineers deal with various professional, skilled and semi-skilled people. Many civil engineers manage people and projects. A civil engineer may oversee a construction site or be a city engineer. Others may work in design, construction, research, and teaching. There are many specialties within civil engineering, such as structural, construction, environment, and transportation. Most civil engineering today deals with power plants, bridges, roads, railways, structures, water supply, irrigation, environmental, sewer, flood control, transportation, telecommunications and traffic.
Computer Hardware Engineering jobs research, design, develop, test, and oversee the installation of computer hardware. Computer hardware includes computer chips, circuit boards, systems, modems, keyboards, and printers. Computer hardware engineers research, design, develop, and test computer hardware and supervise its manufacture and installation. Hardware refers to computer chips, circuit boards, computer systems, and related equipment such as keyboards, modems, and printers. The work of computer hardware engineers is very similar to that of electronics engineers, but, unlike electronics engineers, computer hardware engineers work exclusively with computers and computer-related equipment. In addition to design and development duties, computer hardware engineers may supervise the manufacture and installation of computers and computer-related equipment. Computer hardware engineers may face competition for jobs because the number of degrees granted in this field has increased rapidly and because employment is expected grow more slowly than average. Although the use of information technology continues to expand rapidly, the manufacture of computer hardware is expected to be adversely affected by intense foreign competition.
Aerospace engineers jobs perform and supervise design, development, manufacture and maintenance work on all types of flight vehicles, including military and civilian aeroplanes, helicopters, missiles, launch vehicles, spacecraft and satellites and control and guidance systems. Thay also known as Aeronautical Engineering. The path to becoming an aerospace engineer is a rigorous one, but those who manage to survive the difficult lift-off emerge with an above-average degree of career satisfaction. Academic requirements are strict and wide ranging: Physics, chemistry, computer science, mathematics, materials science, statistics and engineering courses provide the base for any aspiring rocket scientist. Some colleges offer a degree in aerospace engineering; others offer a more generalized engineering degree with some coursework in aerospace engineering. Aerospace engineers may perform the tasks like plan and design aircraft, aircraft parts and support equipment by preparing drawings and making mathematical calculations, often aided by computer systems, design modifications to systems such as fuel or airconditioning and outline installation procedures, conduct tests to measure the performance of an aircraft or part, or to make sure that design specifications and airworthiness requirements are met, supervise the assembly of airframes and the installation of engines, instruments and other equipment, e.g. when installing extra fuel tanks, decide where the tanks are to be placed and check that the support structure of the aircraft is strong enough to carry the extra weight, investigate failed engines or other aviation components, develop procedures for the repair of aviation components.
Agricultural Engineers jobs analyze ideas and use logic to determine their strengths and weaknesses. They identify problems and review information, analyze options and apply solutions, develop long-range plans and identify steps needed to reach goals, think of new ideas or creative ways of solving problems, identify measures of system performance and the actions needed to improve performance, recognize when important changes happen or are likely to happen in a system, make sense of information that seems without meaning or organization.
Biomedical engineers jobs develop devices and procedures that solve medical and health-related problems by combining their knowledge of biology and medicine with engineering principles and practices. Biomedical engineering (BME) is the application of engineering principles and techniques to the medical field. It combines the design and problem solving expertise of engineering with the medical expertise of physicians to help improve patient health care and the quality of life of healthy individuals. By combining biology and medicine with engineering, biomedical engineers develop devices and procedures that solve medical and health-related problems. Biomedical engineers design devices used in various medical procedures, such as the computers used to analyze blood or the laser systems used in corrective eye surgery. They develop artificial organs, imaging systems such as magnetic resonance, ultrasound, and x-ray, and devices for automating insulin injections or controlling body functions.
Chemical engineering jobs is the branch of engineering that deals with the application of physical science and mathematics to the process of converting raw materials or chemicals into more useful or valuable forms. As well as producing useful materials, chemical engineering is also concerned with pioneering valuable new materials and techniques; an important form of research and development. Chemical engineering largely involves the design and maintenance of chemical processes for large-scale manufacture. Chemical engineers in this branch are usually employed under the title of process engineer. They also work in healthcare, biotechnology, and business services. Chemical engineers apply principles of chemistry, physics, mathematics, and mechanical and electrical engineering.
Environmental engineering jobs is the application of science and engineering principles to improve the environment (air, water, and/or land resources), to provide healthful water, air, and land for human habitation and for other organisms, and to remediate polluted sites. Negative environmental effects can be decreased and controlled through public education, conservation, regulations, and the application of good engineering practices. Environmetal Engineers protecting or remediating the world's natural resources, including water, soil, air, energy, and biodiversity. They develop engineering systems that monitor, replace, or intervene in the function and operation of living organisms.
Industrial engineers jobs analyze and evaluate methods of production and point out ways to improve them. An industrial engineer must quickly become an expert not only in the manufacturing and production processes of the industry, but also in the specific culture, problems, and challenges that the company faces. They develop management control systems to aid in financial planning and cost analysis, and design production planning and control systems to coordinate activities and ensure product quality. They also design or improve systems for the physical distribution of goods and services, as well as determine the most efficient plant locations. Industrial engineering is also known as operations management, production engineering, manufacturing engineering or manufacturing systems engineering; a distinction that seems to depend on the viewpoint or motives of the user. Recruiters or educational establishments use the names to differentiate themselves from others. In healthcare industrial engineers are more commonly known as management engineers, engineering management, or even health systems engineers.
Mechanical engineering jobs in industries cover a range of diverse industrial operations; their common feature is that they all do "metal work" (metal machining, metal forming, surface treatment, assembly). The companies roughly belong to three industrial families: mechanical industrial goods, with an output accounting for over 60% of the industry's production; the industrial services for metal working, i.e., subcontracting; and metal products. Two different kinds of companies coexist in the mechanical engineering industries: one, the companies developing their own products and implementing a far-reaching export policy; two, the subcontracting companies, mostly focused on the national or even regional market. It requires a solid understanding of key concepts including mechanics, kinematics, thermodynamics and energy. Practitioners of mechanical engineering, known as mechanical engineers, use these principles and others in the design and analysis of automobiles, aircraft, heating & cooling systems, buildings and bridges, industrial equipment and machinery, and more. Mechanical engineers also design tools that other engineers need for their work.
Materials engineers jobs are an integral part of today's economy and environment. automotive engineering jobs,chemical engineering job,chemical engineering jobs,civil engineer job,civil engineering job,electrical engineer job,electrical engineering job,electronic engineer jobs,engineer jobs,engineering career,engineering vacancies,entry level electrical engineering jobs,graduate engineering jobs,marine engineering jobs,mechanical engineering job,software engineering jobs These engineers apply basic science to develop innovative metal alloys, strong ceramics, versatile polymers and modern electronic materials, which are apart of our everyday lives. These materials are fabricated into thousands of products with characteristics to match their use. They work with metals, ceramics, plastics, semiconductors, and composites to create new materials that meet certain mechanical, electrical, and chemical requirements. Materials engineers are responsible for the selection, preparation and fabrication of many different kinds of materials: polymers, ceramics, organo-metallics, gels, glass, carbons, and traditional and new metals. Specialized materials are found in every aspect of modern life. Metals & Alloys are found in beverage cans, household appliances, aerospace and automobile applications and in other modes of transportation. Polymers are found in plastics and fibers used in cars, toys, computers, copiers and home products such as carpet, kitchen utensils, clothes and furniture. Ceramics are found in cookery, coatings for spaceships and linings for furnaces. Electronic and thermal materials have been developed with superior conducting and insulating characteristics, and carbon fibers are used in the manufacture of tennis rackets, fishing rods and boats.
Biological Engineering jobs deals with engineering biological processes in general. It is a broad-based engineering discipline that also may involve product design, sustainability and analysis of biological systems. Geological Engineering combines the fields of Geology and Engineering in a way that makes a lot of sense: majors study how human beings can put the earth to safe and efficient use. Geological Engineering is very much field oriented; much of your study will be hands-on research. Many programs offer summer field study programs in various parts of the country. Your studies will involve laboratory work, computer work, and problemsolving. The practical nature of Geological Engineering using knowledge of the earth to solve engineering problems can make for a rewarding and exciting career. Mining safety engineers use their knowledge of mine design and practices to ensure the safety of workers and to comply with State and Federal safety regulations. They inspect walls and roof surfaces, monitor air quality, and examine mining equipment for compliance with safety practices.
Nuclear engineering includes the design, analysis, development, testing, operation and maintenance of nuclear fission systems and components, specifically, nuclear reactors, nuclear power plants and/or nuclear weapons. Nuclear engineering has become increasingly important in the development of new medical scanning technologies one of the few growing segments of the field. These employers are all large, established operations. The research side of nuclear engineering can be extremely creative, but the field is best suited for those who won't feel confined in large, bureaucratic work environments.
Petroleum engineers receive information from coworkers about where underground pools of oil may be located. Their job is to determine how to remove the most oil for the lowest cost. They begin by analyzing data about the oil. They look at the depth of the oil, the type of rock around it, and the surface of the land above the oil. Then they determine where the wells should go and what processes are needed to force the oil to the surface. They design equipment and processes to achieve the maximum profitable recovery of oil and gas. Because only a small proportion of oil and gas in a reservoir flows out under natural forces, petroleum engineers develop and use various enhanced recovery methods.
