1. This field of engineering, formerly called
sanitary engineering, involves the safety of people, animals, and
ecosystems. Air pollution, waste management, radiation protection, and
water management are some of the areas studied in this
field.
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2. This type of engineer is involved in the
discovery, extraction, and processing of raw materials.
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3. This engineer investigates land-related projects
like dams, bridges, and tunnels. They may predict river flow, prevent
landslides, or build and maintain power sources like hydroelectric dams
and geothermal plants.
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4. These engineers are involved in crude oil deposit
exploration, the removal of oil, and the transportation and refining of
oil. This includes the design of drilling equipment, pipeline
transportation systems, and the processes to refine the
oil.
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5. This engineer studies the structure, properties,
processes, and performance of the matter used to produce both products and
structures. Examples include ceramics, plastics, metals, and
composites.
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6. This engineer may design prostheses, chemical
processes to make artificial organs function, or electrical devices like
pacemakers.
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7. This engineer may design pharmaceuticals, food
products, detergents, plastics, paints, petroleum products,
etc.
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8. This type of engineering began thousands of years
ago through the breeding of animals and the selective cultivation of
plants. Cloning and mapping of the human genome are two notable
developments in this field.
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9. These engineers work with the processing,
handling, packaging, and equipment for the food industry.
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10. This field of engineering is divided into eight
areas: food processing, information and electrical technology, power and
machinery, structures and environmental, soil and water, forest,
bioengineering, and aquaculture.
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11. This engineer designs circuits for products
ranging from household appliances to rockets and satellites. They develop
items such as transmission and power generation equipment, communications
technologies, and computer hardware.
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12. This engineer may design computer applications
and operating systems, or solve problems related to computer
programs.
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13. These engineers design products such as space
exploration probes, automated devices used in manufacturing, and other
autonomous devices. These devices combine sensing, computing, and
mechanical abilities.
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14. These engineers focus on a balance between
hardware, software, networks, and processors. They may help design
products such as cell phones, airplanes, small appliances, automobiles,
and personal computers.
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15. This type of engineer designs devices that deal
with sound. They may plan sound within an architectural space, such as an
auditorium, office building, or church.
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16. This type of engineer designs tunnels, bridges,
water systems, airports, roads, buildings, and sewage systems and is
involved in urban planning, surveying, construction, and structural
engineering.
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17. These engineers design houses, bridges,
skyscrapers, bridges, towers, tunnels, and canals.
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18. These engineers manage and operate building
projects, focusing on building techniques and materials that are cost
effective, reliable, and safe.
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19. These engineers analyze the process of
mass-producing a product. They are responsible for plant layout, material
handling, scheduling, quality control, reliability control, and cost
production optimization.
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20. These engineers design the tools, processes, and
equipment needed to produce products.
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21. This type of engineer draws on mechanical,
applications, electronic, test, and program engineering. Design challenges
include emissions, shared platforms, performance, and consumer
demand.
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22. This type of engineering is divided into two
fields. Aeronautical engineers design helicopters, private planes, and
commercial planes. Astronautical engineers design
spacecraft.
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23. This type of engineer is responsible for the
design, development and operation of ships, boats, and submarines. Others
study the interaction of the ocean with elements such as beaches, and
harbors.
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24. These engineers are involved in the design,
development, production, control, operation, and service of machines. They
may design engines, HVAC systems, manufacturing devices, power generation
systems, or artificial limbs.
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25. This type of engineering is involved in
developing products such as power generation facilities, and radiation
therapy for cancer patients.
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