Design, develop, test, or supervise the manufacturing and installation of electrical equipment, components, or systems for commercial, industrial, military, or scientific use.
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Employment of engineers is expected to grow about as fast as the average for all occupations over the next decade, but growth will vary by specialty. Biomedical engineers should experience the fastest growth, while civil engineers should see the largest employment increase. Overall job opportunities in engineering are expected to be good.
Overall engineering employment is expected to grow by 11 percent over the 2008–18 decade, about as fast as the average for all occupations. Engineers traditionally have been concentrated in slower growing or declining manufacturing industries, in which they will continue to be needed to design, build, test, and improve manufactured products. However, increasing employment of engineers in engineering, research and development, and consulting services industries should generate most of the employment growth. The job outlook varies by engineering specialty, as discussed later.
Competitive pressures and advancing technology will force companies to improve and update product designs and to optimize their manufacturing processes. Employers will rely on engineers to increase productivity and expand output of goods and services. New technologies continue to improve the design process, enabling engineers to produce and analyze various product designs much more rapidly than in the past. Unlike the situation in some other occupations, however, technological advances are not expected to substantially limit employment opportunities in engineering, because engineers are needed to provide the ideas that lead to improved products and more productive processes.
The continued globalization of engineering work will likely dampen domestic employment growth to some degree. There are many well-trained, often English-speaking, engineers available around the world who are willing to work at much lower salaries than U.S. engineers. The rise of the Internet has made it relatively easy for part of the engineering work previously done by engineers in this country to be done by engineers in other countries, a factor that will tend to hold down employment growth. Even so, there will always be a need for onsite engineers to interact with other employees and clients.
Overall job opportunities in engineering are expected to be good, and, indeed, prospects will be excellent in certain specialties. In addition to openings from job growth, many openings will be created by the need to replace current engineers who retire; transfer to management, sales, or other occupations; or leave engineering for other reasons.
Many engineers work on long-term research and development projects or in other activities that continue even during economic slowdowns. In industries such as electronics and aerospace, however, large cutbacks in defense expenditures and in government funding for research and development have resulted in significant layoffs of engineers in the past. The trend toward contracting for engineering work with engineering services firms, both domestic and foreign, also has made engineers more vulnerable to layoffs during periods of lower demand.
It is important for engineers, as it is for workers in other technical and scientific occupations, to continue their education throughout their careers, because much of their value to their employer depends on their knowledge of the latest technology. Engineers in high-technology areas, such as biotechnology or information technology, may find that their technical knowledge will become outdated rapidly. By keeping current in their field, engineers will be able to deliver the best solutions and greatest value to their employers. Engineers who have not kept current in their field may find themselves at a disadvantage when seeking promotions or during layoffs.
are expected to have 10 percent growth in employment over the projections decade, about as fast as the average for all occupations. New technologies and new designs for commercial and military aircraft and spacecraft produced during the next decade should spur demand for aerospace engineers. The employment outlook for aerospace engineers appears favorable. Although the number of degrees granted in aerospace engineering has begun to increase after many years of declines, new graduates continue to be needed to replace aerospace engineers who retire or leave the occupation for other reasons.
are expected to have employment growth of 12 percent over the projections decade, about as fast as the average for all occupations. Employment growth should result from the need to increase crop yields to feed an expanding population and to produce crops used as renewable energy sources. Moreover, engineers will be needed to develop more efficient agricultural production and to conserve resources. In addition, engineers will be needed to meet the increasing demand for biosensors, used to determine the optimal treatment of crops.
are expected to have employment growth of 72 percent over the projections decade, much faster than the average for all occupations. The aging of the population and a growing focus on health issues will drive demand for better medical devices and equipment designed by biomedical engineers. Along with the demand for more sophisticated medical equipment and procedures, an increased concern for cost-effectiveness will boost demand for biomedical engineers, particularly in pharmaceutical manufacturing and related industries. Because of the growing interest in this field, the number of degrees granted in biomedical engineering has increased greatly. Many biomedical engineers, particularly those employed in research laboratories, need a graduate degree.
are expected to have an employment decline of 2 percent over the projections decade. Overall employment in the chemical manufacturing industry is expected to continue to decline, although chemical companies will continue to employ chemical engineers to research and develop new chemicals and more efficient processes to increase output of existing chemicals. However, there will be employment growth for chemical engineers in service-providing industries, such as professional, scientific, and technical services, particularly for research in energy and the developing fields of biotechnology and nanotechnology.
are expected to have employment growth of 24 percent over the projections decade, much faster than the average for all occupations. Spurred by general population growth and the related need to improve the Nation's infrastructure, more civil engineers will be needed to design and construct or expand transportation, water supply, and pollution control systems, and buildings and building complexes. They also will be needed to repair or replace existing roads, bridges, and other public structures. Because construction industries and architectural, engineering, and related services employ many civil engineers, employment opportunities will vary by geographic area and may decrease during economic slowdowns, when construction is often curtailed.
are expected to have employment growth of 4 percent over the projections decade, slower than the average for all occupations. 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. As computer and semiconductor manufacturers contract out more of their engineering needs to both domestic and foreign design firms, much of the growth in employment of hardware engineers is expected to take place in the computer systems design and related services industry.
are expected to have employment growth of 2 percent over the projections decade. Although strong demand for electrical devices—including electric power generators, wireless phone transmitters, high-density batteries, and navigation systems—should spur job growth, international competition and the use of engineering services performed in other countries will limit employment growth. Electrical engineers working in firms providing engineering expertise and design services to manufacturers should have better job prospects.
, are expected to experience little to no employment change over the projections decade. Although rising demand for electronic goods—including communications equipment, defense-related equipment, medical electronics, and consumer products—should continue to increase demand for electronics engineers, foreign competition in electronic products development and the use of engineering services performed in other countries will limit employment growth. Growth is expected to be fastest in service-providing industries—particularly in firms that provide engineering and design services.
are expected to have employment growth of 31 percent over the projections decade, much faster than the average for all occupations. More environmental engineers will be needed to help companies comply with environmental regulations and to develop methods of cleaning up environmental hazards. A shift in emphasis toward preventing problems rather than controlling those which already exist, as well as increasing public health concerns resulting from population growth, also are expected to spur demand for environmental engineers. Because of this employment growth, job opportunities should be favorable.
, are expected to have employment growth of 10 percent over the projections decade, about as fast as the average for all occupations. Because health and safety engineers make production processes and products as safe as possible, their services should be in demand as concern increases for health and safety within work environments. As new technologies for production or processing are developed, health and safety engineers will be needed to ensure that they are safe.
are expected to have employment growth of 14 percent over the projections decade, faster than the average for all occupations. As firms look for new ways to reduce costs and raise productivity, they increasingly will turn to industrial engineers to develop more efficient processes and reduce costs, delays, and waste. This focus should lead to job growth for these engineers, even in some manufacturing industries with declining employment overall. Because their work is similar to that done in management occupations, many industrial engineers leave the occupation to become managers. Numerous openings will be created by the need to replace industrial engineers who transfer to other occupations or leave the labor force.
are expected to have employment growth of 6 percent over the projections decade, slower than the average for all occupations. Continued demand for naval vessels and recreational small craft should more than offset the long-term decline in the domestic design and construction of large oceangoing vessels. Good prospects are expected for marine engineers and naval architects because of growth in employment, the need to replace workers who retire or take other jobs, and the limited number of students pursuing careers in this occupation.
are expected to have employment growth of 9 percent over the projections decade, about as fast as the average for all occupations. Growth should result from increased use of composite and other nontraditional materials developed through biotechnology and nanotechnology research. As manufacturing firms contract for their materials engineering needs, most employment growth is expected in professional, scientific, and technical services industries.
are expected to have employment growth of 6 percent over the projections decade, slower than the average for all occupations. Mechanical engineers are involved in the production of a wide range of products, and continued efforts to improve those products will create continued demand for their services. In addition, some new job opportunities will be created through the effects of emerging technologies in biotechnology, materials science, and nanotechnology. Additional opportunities outside of mechanical engineering will exist because the skills acquired through earning a degree in mechanical engineering often can be applied in other engineering specialties.
, are expected to have employment growth of 15 percent over the projections decade, faster than the average for all occupations. Following a lengthy period of decline, strong growth in demand for minerals is expected to create some employment growth over the 2008–18 period. Moreover, many currently employed mining engineers are approaching retirement age, a factor that should create additional job openings. Furthermore, relatively few schools offer mining engineering programs, resulting in good job opportunities for graduates. The best opportunities may require frequent travel or even living overseas for extended periods as mining operations around the world recruit graduates of U.S. mining engineering programs.
are expected to have employment growth of 11 percent over the projections decade, about as fast as the average for all occupations. Most job growth will be in research and development and engineering services. Although no commercial nuclear power plants have been built in the United States for many years, increased interest in nuclear power as an energy source will spur demand for nuclear engineers to research and develop new designs for reactors. They also will be needed to work in defense-related areas, to develop nuclear medical technology, and to improve and enforce waste management and safety standards. Nuclear engineers are expected to have good employment opportunities because the small number of nuclear engineering graduates is likely to be in rough balance with the number of job openings.
are expected to have employment growth of 18 percent over the projections decade, faster than the average for all occupations. Petroleum engineers increasingly will be needed to develop new resources, as well as new methods of extracting more from existing sources. Excellent opportunities are expected for petroleum engineers because the number of job openings is likely to exceed the relatively small number of graduates. Petroleum engineers work around the world, and in fact, the best employment opportunities may include some work in other countries.
In 2008, engineers held about 1.6 million jobs. Following is the distribution of employment by engineering specialty:
|Electronics engineers, except computer
|Computer hardware engineers
|Health and safety engineers, except mining safety engineers and inspectors
|Marine engineers and naval architects
|Mining and geological engineers, including mining safety engineers
|Engineers, all other
About 36 percent of engineering jobs were found in manufacturing industries, and another 30 percent were in the professional, scientific, and technical services industries, primarily in architectural, engineering, and related services. Many engineers also worked in the construction, telecommunications, and wholesale trade industries.
Federal, State, and local governments employed about 12 percent of engineers in 2008. About 6 percent were in the Federal Government, mainly in the U.S. Departments of Defense, Transportation, Agriculture, Interior, and Energy, and in the National Aeronautics and Space Administration. Many engineers in State and local government agencies worked in highway and public works departments. In 2008, about 3 percent of engineers were self-employed, many as consultants.
Engineers are employed in every State, in small and large cities and in rural areas. Some branches of engineering are concentrated in particular industries and geographic areas; for example, petroleum engineering jobs tend to be located in States with sizable petroleum deposits, such as Texas, Louisiana, Oklahoma, Alaska, and California. Other branches, such as civil engineering, are widely dispersed, and engineers in these fields often move from place to place to work on different projects.
Job Zone 4 - Preparation needed
A minimum of two to four years of work-related skill, knowledge, or experience is needed for these occupations. For example, an accountant needs four years of college and several years of accounting work to be considered qualified.
Most of these occupations require a four-year bachelor's degree, but some do not.
Employees in these occupations usually need several years of work-related experience, on-the-job training, and/or vocational training.
Accountants, chefs and head cooks, computer programmers, historians, and police detectives.
These occupations often involve coordinating, supervising, managing, and/or training others.
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Information about careers in engineering is available from:
Information on ABET-accredited engineering programs is available from:
Those interested in information on the Professional Engineer licensure should contact:
- National Council of Examiners for Engineering and Surveying, P.O. Box 1686, Clemson, SC 29633. Internet: http://www.ncees.org
- National Society of Professional Engineers, 1420 King St., Alexandria, VA 22314. Internet: http://www.nspe.org
Information on general engineering education and career resources is available from:
- American Society for Engineering Education, 1818 N St. NW., Suite 600, Washington, DC 20036. Internet: http://www.asee.org
Information on obtaining engineering positions with the Federal Government is available from the Office of Personnel Management through USAJOBS, the Federal Government's official employment information system. This resource for locating and applying for job opportunities can be accessed through the Internet at http://www.usajobs.opm.gov or through an interactive voice response telephone system at (703) 724–1850 or TDD (978) 461–8404. These numbers are not toll free, and charges may result. For advice on how to find and apply for Federal jobs, see the Occupational Outlook Quarterly article "How to get a job in the Federal Government," online at http://www.bls.gov/opub/ooq/2004/summer/art01.pdf.
For more detailed information on an engineering specialty, contact societies representing the individual branches of engineering. Each can provide information about careers in the particular branch.
- American Institute of Aeronautics and Astronautics, Inc., 1801 Alexander Bell Dr., Suite 500, Reston, VA 20191. Internet: http://www.aiaa.org
- American Society of Agricultural and Biological Engineers, 2950 Niles Rd., St. Joseph, MI 49085. Internet: http://www.asabe.org
- Biomedical Engineering Society, 8401 Corporate Dr., Suite 140, Landover, MD 20785. Internet: http://www.bmes.org
- American Chemical Society, Department of Career Services, 1155 16th St. NW., Washington, DC 20036. Internet: http://www.chemistry.org
- American Institute of Chemical Engineers, 3 Park Ave., New York, NY 10016. Internet: http://www.aiche.org
- American Society of Civil Engineers, 1801 Alexander Bell Dr., Reston, VA 20191. Internet: http://www.asce.org
Computer hardware engineers
Electrical and electronics engineers
- American Academy of Environmental Engineers, 130 Holiday Court, Suite 100, Annapolis, MD 21401. Internet: http://www.aaee.net
Health and safety engineers
- American Society of Safety Engineers, 1800 E Oakton St., Des Plaines, IL 60018. Internet: http://www.asse.org
- Institute of Industrial Engineers, 3577 Parkway Lane, Suite 200, Norcross, GA 30092. Internet: http://www.iienet.org
Marine engineers and naval architects
- Society of Naval Architects and Marine Engineers, 601 Pavonia Ave., Jersey City, NJ 07306. Internet: http://www.sname.org
- American Society of Mechanical Engineers, 3 Park Ave., New York, NY 10016. Internet: http://www.asme.org
- SAE International, 400 Commonwealth Dr., Warrendale, PA 15096. Internet: http://www.sae.org
Mining and geological engineers, including mining safety engineers
- Society for Mining, Metallurgy, and Exploration, Inc., 8307 Shaffer Parkway, Littleton, CO 80127. Internet: http://www.smenet.org
- American Nuclear Society, 555 North Kensington Ave., La Grange Park, IL 60526. Internet: http://www.ans.org
- Society of Petroleum Engineers, 222 Palisades Creek Dr., Richardson, TX 75080. Internet: http://www.spe.org
Sources: O*Net data version 12.0
Occupational Outlook Handbook
Department of Labor
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