How Much Does an Engineer Make

To become a Engineer you need to be attention to detail person.

Beginning to focus on mathematics and science courses as early as possible will help prepare anyone who wants to learn how to become an engineer. If you want to discover if this particular career path is suitable for you, you are welcome to take a free career quiz.

Engineer Salary

  • Average Annual Salary: $88,450
  • Expected Lifetime Earnings: $3,545,650

Engineer – Education

To become an engineer, you need to have a high school or GED® diploma, followed by at least a bachelor’s degree, and holding specialist certification improves promotion chances into management positions. Practical experience is highly valued, and those holding further certification are most sought after. In practically all states, engineers are required to be licensed.

To discover if a career in one of these fields is right for you, take a career quiz at no cost! There are many engineering specializations. Here we will give short descriptions including average salaries of the best known directions. Bear in mind that not all creative types are suited to get into the world of engineering.

Mechanical Engineer

Mechanical engineers are working in a wide variety of settings. It is actually the one of the broadest disciplines within the world of engineering. They are designing, developing, constructing, and testing mechanical or thermal devices, such as machines, tools, or engines. Mechanical engineers are usually working in a professional office, but occasionally they may need to visit a site where a piece of equipment or some other problem requires attention.

Usually, mechanical engineers are working in the engineering services sector, at research & development offices, at manufacturing corporations, or for government agencies. . In 2014, the average mechanical engineer salary was around $81,000, and the outlook for the profession may be called stable, especially for those who attend continuing education to learn everything about the latest technological developments.

Civil Engineer

Civil engineers are designing, constructing, supervising, operating, and maintaining large-scaled construction projects and/or utility systems. They can be found working on projects that include airports, roads, bridges commercial, residential, or government buildings, tunnels, dams, sewage systems, or water supply systems.

These professionals usually will be working indoors in their offices, though they also will need to spend time at construction sites to monitor specific operations or to deal with problems onsite. Most civil engineers are full time employed. Civil engineers must first complete their high school or GED test diploma. Then a bachelor’s degree is required, preferably in civil engineering (or civil engineering technology).

Besides a graduate degree they must receive licensure and to be eligible for advancement to a senior position, they may require more certificates as well. Although licensure requirements differ from state to state, must civil engineers in general be licensed in those locations where they work. The professional outlook for these professionals is expected to grow by some 20 percent over the next decade, and this is much faster than the national average for other occupations, and as the national infrastructure is getting older, more and more civil engineers are needed to come up with solutions for aging bridges, to repair major roads, and to upgrade dams and levees. In 2014, civil engineers earned an average annual salary of around $79,850

Electrical and Electronics Engineer

An electrical engineer is designing, developing, testing, and often supervising the manufacturing process of electrical tools and equipment. These products may be all sorts of things, from navigation systems, electric motors, to complex communications systems or power generators. An electronics engineers is designing and developing electronic equipment, from simple portable radios and music players to highly sophisticated communications and broadcast systems or GPS (global positioning systems) devices.

Electrical and electronics engineers are working mainly at labs in research & development businesses, manufacturing or engineering firms, or for federal government agencies. Their works takes place mostly indoors, though sometimes they need to visit a certain site to deal with a problem or repair a piece of equipment. After completing high school or a GED test diploma, applicants must have attended college and hold at least a bachelor’s degree in electrical/electronics engineering.

The employment outlook for electrical and electronics engineers is expected to be reasonably stable over the next decade, but new technological developments will ensure a continuous demand for these professionals. In 2014, the median wage for these engineers was around $88,610 on a yearly basis.

Industrial Engineer

An industrial engineer is engaged in the process of finding the best ways to eliminate all sorts of waste in manufacturing and production processes. These professionals create and develop the most efficient methods to use materials, machines, energy, information, and human resources within a production process to provide better service, or to make a better product efficiently. Industrial engineers can be found working not only in offices, but also in the location or setting that they want to improve.

They may, for example, be watching workers who assemble parts on the factory floor, or monitoring medical staff working in a hospital. When they are solving certain problems, these professionals may often be found working in their offices at a computer while examining and reviewing all relevant data they or their colleagues collected. Industrial engineers must hold a high school or GED test diploma, followed by at least a bachelor’s degree industrial engineering or a closely related field such as mechanical engineering, manufacturing engineering, general engineering, or industrial engineering technology.

The demand for industrial engineers is expected to grow slightly over the coming decade, a little less than the national average, and in 2014, the median annual salary for industrial engineers was around $78,900.

Environmental Engineer

An environmental engineer is using all sorts of fundamentals of engineering, biology, soil science, and chemistry in an attempt to come up with solutions to prevent or solve environmental issues. These professionals are involved in developing techniques to better deal with, for example, waste disposal, water contamination, air pollution, and they develop ways to improve recycling or matters that relate to public health. Environmental engineers usually are working in a wide variety of settings due to the nature of their tasks.

When they, for example, are working on solutions for a construction project, they probably can be found at a construction site, whereas they most likely can be found in an office when they work with city developers, regional planners, or other engineers. To become an environmental engineer, you must first complete your high school education, or hold a GED test diploma, after which you must complete a bachelor’s degree in preferably environmental engineering.

Many of these professionals are holding a degree in a related field, such as general, civil, or chemical engineering. Practical experience is highly valued, ans most states require proper licensure as well. Over the next decade, the employment options of environmental engineers will probably grow by some 14 percent, and this is much faster than the overall average. In 2014, environmental engineers made a median income of around $80,1000.

Agricultural Engineer

Agricultural engineers (sometimes also referred to as biological engineers) are active in a variety of fields. Their activities may range from land farming and forestry to aquaculture where foods such as fish are raised. They also may be found working in the development of biofuels or improving conservation, to the animal-environment improvement business or in the food industry where they may be working on methods to improve processed foods.

A lot of agricultural engineers are working mainly in their offices, but there are also those who are spending most of their time at various in or outdoor sites, and others need to travel to farms or other agricultural sites to make sure machinery and equipment will be functioning in accordance with all instructions and in line with state or federal regulations. After earning their high school or GED test diploma must agricultural engineers at least have earned a bachelor’s degree in agricultural engineering or a related field such as biological engineering.

Practical experience is highly valued, and many colleges and universities provide engineering certificate programs as well. The job outlook for these engineers will be pretty stable over the coming decade and most grow will come through development and application of new high-tech developments, especially in water resource management, alternative energy, and the food processing industry. In 2014, the average yearly income for agricultural engineers was around $74,250.

Biomedical Engineer

A Biomedical Engineer is researching, analyzing, and designing solutions to issues in the world of medicine and biology, and their tasks lie in the field of improving the effectiveness and quality of devices, tools, and all other things related to patient care. These professionals usually can be found performing their tasks in the manufacturing industry, in universities or hospitals, at commercial research labs, at medical or educational institutions, or at various government agencies.

After their high school education (or when they earned their GED test), biomedical engineers will have to possess a bachelor’s degree in the field of biomedical engineering or any related field followed by on-the-job training to become a qualified biomedical engineer. Over the next decade, the job outlook of the world of biomedical engineering is good, A growth of over 25 percent is expected and this is much faster than overall professional expectations.

The population is getting older, technological development is strong, and public awareness is increasing, meaning the demand for these professionals will only become stronger. In 2014, the median wage for a biomedical engineer was around $87,120 per year.

Computer Hardware Engineer

A computer hardware engineer is active in the field of researching, designing, developing, and testing computer components and systems such as circuit boards, processors, memory devices, or routers. They are developing new directions and concepts in computer hardware so they are also responsible for some of the important and rapid developments in computer technology and applications.

These professionals generally are working in research & development laboratories where they are building and testing a variety of different computer models. Most computer hardware engineers are employed by high-tech computer manufacturing companies. Computer hardware technicians and engineers must first get their high school diploma or GED credential, after which they will have to earn at least a bachelor’s degree from an accredited university program.

The employment options for the world of computer hardware engineering are projected to remain stable over the next decade. Most innovations take place in software development and that’s where most growth can be expected. The average annual salary for a computer hardware engineer was around $100,500 in 2014.

Chemical Engineer

The world of chemical engineering includes applying the fundamentals of chemistry, mathematics, physics, and biology to be able to solve issues that are relating to the use or production of chemicals, food, drugs, fuel, and a wide variety of other products. Chemical engineers are researching, designing, developing, and testing products, equipment and various processes used at large-scale manufacturing of safe and sustainable products.

They are planning and testing diverse methods of manufacturing chemical and/or food related products and they develop methods to treat byproducts, and often they are responsible for the supervision of production processes. They usually are working in laboratories or offices, but they can also be found working at refineries or other industrial plants, or sites where they will be directing and/or monitoring operations or where they need to solve some problemson onsite.

After earning a high school or GED diploma, chemical engineers will require at least a bachelor’s degree in the field of chemical engineering. Practical experience is very valuable, and many universities offer certificate programs to allow for better job advancement options. The job outlook in the world of chemical engineering may be called stable for the next decade. In 2014, the average yearly income for chemical engineers was around $95,380.


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