Salaries with Industrial Engineering Degree

 

Salaries with Industrial Engineering Degree

It is expected that employment of industrial engineers may grow 5 percent between 2012 and 2022. This is actually a lower expected growth rate than in many other careers, even in other branches of engineering. Industrial engineers are employed in a broad array of settings, and the type of work they do is very varied. Most industrial engineers work in manufacturing as well as in professional, technical, and scientific services. Median wages for industrial engineers in the United States as a whole were $80,300 in 2013, according to ONet. In New York State, the median wage for industrial engineers was $79,800, whereas in Texas the median wage is $91,800. In Florida, the median wage was $68,500. Clearly, different areas of the country pay industrial engineers very differently.

According to the US Bureau of Labor Statistics, the range between the lowest and highest paid percentages of industrial engineers was $52,000 yearly, or $24.98 hourly, versus $119,500 yearly, or $57.43 hourly as of 2013. Within the profession, the specific industry an individual works in, as well as the tasks they perform and how experienced they are is responsible for these differences.

At the postgraduate level, the most commonly-earned degree is the Master of Science (MS) or Master of Science and Engineering (MSE) in IE. Typical coursework at this level tends to be focused on operations research and optimization techniques, engineering economics, supply chain management and logistics, facilities and work-space design, quality engineering, reliability engineering, human factors engineering and ergonomics, robotics, productivity improvement, operations management, time and motion studies, computer aided manufacturing, and others.

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Types of Environmental Engineer

 

Types of Environmental Engineer

Environmental engineers are most concerned with the effects of technological advances on the environment. Hazardous-waste treatment is a significant issue needing regulation which these engineers can design and help implement through laboratory and legal avenues.

Worldwide issues in the environmental engineer's expertise include everything from farm runoff to ozone depletion, and all of the water sources in between. Today's engineers often further their education with specialized training in law and use legal paths to access routes to improvement. The study and practice of environmental engineering is as broad as the elements that make up the Earth.

Schools of engineering can vary in their requirements, but are also quite similar. Typically, a university offers the CEE (civil and environmental engineering) degree, and a B.S. in environmental engineering (BS EnvE). The curriculum provides students with the fundamentals to address emerging issues with air and land resources, human health, water, and environmental restoration.

All prerequisites must be satisfied before graduating with a B.S. The B.S. EnvE degree requires acceptable letter grades in math, physics, chemistry, and COE.

Students seeking specialized graduate degrees in environmental engineering have four basic choices. Those wanting a career that does not require research can get a master of engineering (M.Eng.) degree. For a master of science (M.S.), students must complete a thesis research project showing their increased knowledge. The Ph.D. degree (doctor of philosophy) is awarded for expertise in research, and the D.Eng. (doctor of engineering) degree awards combined technical expertise with management skills.

There are online schools for B.S. degrees in engineering, but they are not reviewed here. The many laboratory components of engineering studies may not be available online; careful attention should be given to selecting an institution.

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Electronic Engineer Employment and Outlook

 

Electronic Engineer Employment and Outlook

According to the U.S. Bureau of Labor Statistics (BLS), there were about 294,000 electronic engineers employed in 2010. About 14 percent worked for the federal government, 11 percent were employed with wired telecommunications carriers and electronic manufacturing firms and 8 percent held jobs in navigational, electromedical instruments manufacturing, architectural and engineering related services.

The BLS also reports that there will be slower than average growth for electrical engineers. There is only a 6 percent expected increase in the demands for these professionals from 2010 until 2020. This is mainly because of the decline in the manufacturing industry where they are mostly employed.

However, there are good projections for electrical engineers who work on an as-needed basis rather than those who are permanently employed. Similarly, there is a good future ahead for electrical engineers who specialize in research and development.

Typical Electrical Engineer Salary

In 2010, electrical engineers earned as much as $84,540 in median annual wages according to the BLS. The top 10 percent highest earners received about $128,610 while the bottom 10 percent earners took home about $54,030. Among the highest paying electrical engineer jobs in industries employing the largest number of these professionals come from semiconductor and electronic manufacturing companies.

Employees in these firms usually earn about $92,070 on average. This was followed by scientific research and development firms that paid $90,970 in median annual wages.

Electrical engineers with a master’s degree or doctoral degree typically receive higher salaries than those who only obtained a bachelor’s degree. Like any other engineering career, salary rates depend on the employer, location, years of experience and educational background.

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Types of Degrees in Civil Engineering

 Types of Degrees in Civil Engineering 

Universities specializing in engineering fields offer master of science, master of engineering, and doctor of philosophy degrees in civil engineering as well as other branches of engineering technology. A well-rounded civil engineering program prepares students for careers in civil engineering or for advanced study in the field.

Schools of engineering can vary, but as a rule their requirements are similar. Universities of engineering typically offer the CEE (civil and environmental engineering) degree, and a B.S. in environmental engineering (BS EnvE). The curriculum gives students the fundamentals to address emerging issues regarding air and land resources, human health, water, and environmental restoration.

During the first 2 years, studies include English composition, physics, chemistry, biology, mathematics, and introductory engineering. Advanced engineering courses in the third year including solid and fluid mechanics, thermodynamics, and laboratories in engineering materials, hydraulic engineering, and environmental monitoring and process engineering.

All prerequisites must be met before receiving a B.S. Acceptable letter grades in math, physics, chemistry, and COE are required for the B.S. EnvE degree.

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What Kinds of Jobs Can I Get with a Chemical Engineering Degree

What Kinds of Jobs Can I Get with a Chemical Engineering Degree

There are too many lab and field study requirements to make online study suitable for a conventional B.S. in chemical engineering, but it is possible to earn a master of science degree in chemical engineering (MSCHE) online, through some sources. These opportunities are designed for outstanding students who already have engineering degrees. Qualifications and prerequisites are stringent.

Through chemical processes, chemical engineers find new and creative ways of making those things that improve our lives. Their work ranges from developing better skin-care products to finding materials that are more fire-resistant. Chemical engineers can be part of an innovative team at a manufacturing facility or working in cutting-edge research.
As a chemical engineer, you might be a quality control specialist for a corporation that manufactures cleaning products or jet airplanes. You might be discovering less destructive and more sustainable ways to extract and use natural resources. You might be designing or discovering the latest sensation in the eye care industry, better aerosol propellants, more durable paints, and ways to preserve foods and medicines longer. The sky is not the limit; it is just another avenue for what you might discover.

The U.S. Bureau of Labor Statistics show the median annual wage of chemical engineers was $90,300 in May of 2010.

You can gain access to membership in a generous list of professional organizations, associations, and societies through a degree in chemical engineering. These associations offer resources, research opportunities, networking avenues not readily available on the job, and much more.

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Types of Biomedical Engineering

 

Types of Biomedical Engineering

Some biomedically-engineered phenomena include regenerative tissue growth, pharmaceuticals, high-tech prostheses, diagnostic imaging equipment, and micro-implants. Biomedical engineering includes an increasing subset of specialties. Some of those specialties include:

Tissue Engineering

Organ transplants made from patients' own tissue, offer a quality of life not possible with donor organs. This field has produced solid jawbones and tracheas from human stem cells. Artificial bladders have been developed and successfully transplanted into humans.

Genetic Engineering

Manipulates an organism's genes on a molecular level. Some applications include improved crops, synthetic insulin, and the production of mice more suitable for cancer research.

Neural Engineering

Centers on the repair of neural systems—those pathways that tell our muscles when to move. All paralysis victims have an interest in this science on some level.

Pharmaceutical Engineering

Falls into both biomedical and chemical engineering categories. While some pharmaceuticals have upfront need of biological agents, even the development of chemical drugs requires BME knowledge.

Medical Devices

Cover all health care products not developed primarily through chemical means. They aid in disease diagnoses, cures, treatment, and prevention. Examples include prostheses, pacemakers, life-sustaining machines, artificial organs, and non-organic implants.

Medical Imaging

Equipment essential to diagnoses typically accounts for hospitals' most complex tools. Radiological techniques through ultrasound, magnetism, and UV, are among medical/biomedical imaging equipment achievements.

Bionics

Bionic limbs give functionality to amputees, and their development has also led to improved electronic transmission that affects much of the world.

Clinical Engineering

Practicing in clinical settings, these engineers train and supervise biomedical equipment technicians, work with governmental regulators, and consult with hospital staff. They are closely connected with medical device producers and end users.Regulatory Issues require routine consultation with specialized attorneys. Equipment safety and efficiency are the foremost objectives, and the Food and Drug Administration has jurisdiction over many biomedically-engineered products.

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Education and Training Aerospace Engineering

 

Education and Training Aerospace Engineering

There are small number of schools that offer associate degrees in aerospace engineering, but they usually reserve those degrees for engineers who have degrees in related fields, such as mechanical, electrical or computer engineering. Generally, the aerospace industry prefers job seekers with four-year Bachelor of Science degrees.

There are only a handful of universities accredited by the Accreditation Board for Engineering and Technology in the United States that offer aerospace engineering degrees. Aerospace engineers take two years of calculus, differential equations, physics and chemistry and two years of engineering coursework. Aerospace engineering students can expect to see the following engineering courses in their university's curriculum.

In terms of career choices, the aerospace field is projected to grow 5% between 2010-2020 according to the Bureau of Labor Statistics (BLS). Aerospace engineering majors can choose variety of career paths, including positions in scientific research, engineering design and development, field service, management, marketing, software development and teaching.

The two main branches of aerospace engineering degrees are aeronautics and astronautics. Some universities have curriculum's that embrace both areas, while others separate the two fields and offer degree programs in either aeronautics or astronautics. Aerospace engineering majors should be prepared to engage in a significant amount of actual design and implementation in addition to coursework. In addition, students should seriously consider learning Russian, Japanese or German because many people of these nationalities are deeply involved in the development of spacecraft components.

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