Masters of Chemical Engineering Degree

 Aside from the standard 4-year-degree courses, there are degrees with emphasis on environmental, biochemical, or materials engineering. Environmental studies prepare engineers to work on waste minimization, pollution control, and waste management. Biochemical studies prepare students to enter the biochemical industry, and support a strong pre-med program.

Materials engineering incorporates chemistry and applied physics, with interest in the atomic and molecular levels of materials. Emphasizing these areas requires a slightly heavier course load. On graduating, students are traditional chemical engineers as well as specialists.

Beyond receiving a B.S. in chemical engineering, students can pursue other graduate degrees. The master's degree (M.Sc.) for chemical engineering is the next level, and generally requires 5 quarters of study. Typically, a university will allow no more than 3 years for the completion of this degree, and a grade point average of 3.00 is required.

Doctor of philosophy (PhD) studies prepare graduates to take active parts in the ever-changing field of chemical engineering. A PhD can access all levels of industrial and research organizations such as national laboratories or university teaching.

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.

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Masters of Biomedical Engineering

Master's degrees in biomedical engineering are encouraged, and generally require five more quarters of study, but options are becoming available. Colorado State University (CSU) and Duke University, for example, offer cutting-edge approaches to dual-degree coursework.

CSU's dual-degree biomedical engineering bachelor's program coursework focuses on improving health, fighting disease, and aiding those with disabilities. The master's strengthens experience in the sciences, and animal and human medicine. Earning two degrees in 5 years is an excellent beginning to a successful career as a biomedical engineer.

Duke's BME combines hands-on experience with interdisciplinary research in the detection and treatment of human disease. Many undergraduates are involved in independent-study research.
After earning their 4-year B.S., most students earn a master's in less than 2 years and a Ph.D. in less than six.

Georgia Tech's Master of Biomedical Innovation and Development (BioID) is another example of collaborative instruction between biomedical technology and hands-on experience.
This degree addresses a gap in current education—the “bench-to-bedside” progression that takes products from research to patients.

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Automotive Engineering Degrees

 (ABET). In evaluating an automotive engineer job applicant, some employers consider the reputation of the engineering school that the undergraduate attended more than any other factor. However, most employers focus more on the undergraduate's grades and amount of his or her hands-on experience. Consequently, any college or university that promotes national design and racing competitions in which the student gains hands-on experience would be a good choice. Students should also look for internships or other opportunities that will force them to apply coursework to real-life situations. Over time, the school will not be as important as the experience and skills the engineering the undergraduate offers.

Bachelor’s Degree

Because not many schools offer a bachelor’s degree program in automotive engineering, most aspiring automotive students enter a mechanical engineering program. This is because automotive engineering is an offshoot of mechanical engineering and therefore, many of the classes are the same. However, some schools offer mechanical engineering programs that include automotive engineering courses such as:

• Automobile dynamics
• Automotive electronics
• Engine parts
• Diesel engine theory
• Alternative energy sources
• Fuel cell systems
• Powertrain dynamics

It usually takes four years to complete a bachelor's degree in engineering. During the last year, the student must finish a design project, either alone or with other students. After graduation, the new engineer must work under the supervision of a licensed professional engineer for a certain number of years, depending on the state, and pass and Engineer-In-Training exam and Professional Engineers exam to become a licensed professional engineer.

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Bachelor of Science in Audio Engineering

Both the Associate and Bachelor degrees require a minimum of a high school diploma, a GED certificate, or the equivalent. Different schools, particularly those offering Bachelor programs, may also have specific requirements for placement tests or minimum scores for standard college entrance tests, like the SAT or ACT. In addition to the school standards, strong math skills, a good grasp of music, and an understanding of technology are all beneficial skills in pursuing this course of study.

Master's programs are available to those that desire to extend their education in very specific areas of the industry. These programs provide an intense study of a particular area of interest, like game design, music, acoustics, or recording.

Audio engineering degrees require a blend of music, business, and technical classes. Music fundamentals, acoustics, and theory are some of the music classes that are included in the degree. The technical and business courses encompass recording production, audio signal processing, mixing, editing, digital sound design, live sound production, and studio operations.

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Applied Engineer Academic Preparation & Career

 

A Bachelor’s Degree is required by employers to receive a job offer from a firm to work as an applied engineer. This course of study explores the application of principles regarding the design, and creation of products and systems within a manufacturing context. Programs delve into issues as quality control, project management, systems integration and manufacturing processes as well as strive to refine critical-thinking and problem-solving capacities. Students take classes in the basics of production planning, materials science and personnel safety. To assume management positions with some firms, advanced degrees such as a Master’s or Ph.D. may be required. Holders of advanced degrees also have the credentials to teach at the university level. From a business perspective, those seeking executive roles should work to develop their acumen in budget management and negotiation, as they will be asked to broker deals with suppliers and other assets. Superb oral and written communication skills as well as leadership abilities are highly coveted.

The Association of Technology, Management, and Applied Engineering has developed congresses and resources to enhance the visibility of the field and equip practitioners with the latest knowledge and best practices in the industry. Like this organization, the Technology Student Association (TSA) and the National Society of Professional Engineers (NSPE) offer resources and materials to candidates in the field, including a library of publications, news and technological innovations. These associations work to provide rich mentoring and networking opportunities for members and aspiring candidates to enter and/or advance in the field. At the university level, students capitalize on alumni networks and on-campus recruiting efforts made by leading firms to fulfill their talent needs. Companies such as IBM, Ingersoll Rand, General Mills and CoreComm are a sampling of the firms who have acquired new personnel through these avenues. The U.S. Bureau of Labor Statistics (BLS) projects a gradual decline in the employment prospects for these types of professionals, as manufacturing activities fall within the United States. O*Net reports that these professionals earn a yearly salary of $60,560.

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Agricultural Engineering Education Requirements

Typical of all B.S. degrees, agricultural engineering studies begin with English, math, political science, chemistry, humanities, economics and other basics. Gradually, students are introduced to their majors, and this one begins in the freshman year with an introduction to agricultural systems management. Agriculture courses that follow can include:

• Farm Tractors and Power Units
• Systems Analysis in Agriculture
• Operations Research and Systems Theory
• Agricultural Machinery Management
• Food Process Engineering Technology
• Agri-Industrial Applications of Electricity
• Water and Soil Management
• Technology for Environmental and Natural Resource Engineering
• Occupational Safety Management
• Processing and Storage of Agricultural Products
• Spatial Technology for Precision Agriculture
• Management of Agricultural Systems
• Geographic Information Systems for Resource Management
• Advanced GIS Analysis for Natural Resource Management
• Agricultural Electronics and Control
• IT for Agricultural Systems

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Aerospace Engineering Education and Training

 Prospective engineering students should take as many classes as possible in algebra, geometry, trigonometry and pre-calculus, physics and chemistry because these subjects are critical to understanding the core concepts of aerospace engineering. Because engineers also need effective and written communications skills, students should not overlook language arts classes, such as writing and speech.

Young aerospace engineering graduates have said that they took many Advanced Placement or college classes as in high school to prepare for university engineering coursework.

Associate Degree in 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.

Bachelor of Science Degree in Aerospace Engineering

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:

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Bachelor of Science Degree in Aerospace Engineering

Associate Degree in 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:

• Statics
• Dynamics of aerospace systems
• Control of aerospace systems
• Aerodynamics
• Thermodynamics
• Flight software systems
• Aerospace instrumentation and experimentation
• Aerospace structures
• Aircraft flight dynamics
• Space flight dynamics
• Vibration and elasticity
• Aircraft propulsion and power
• Space navigation and guidance
• Space propulsion and power
• Aeronautical systems design
• Space systems design

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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Academic Preparation for Transport Engineers

 Academic Preparation for Transport Engineers

A Bachelor’s Degree is required by employers to secure a position in the industry. Undergraduate students complete classes in design, land development, traffic systems, safety analysis and mass transit, in addition to more general courses in physics and calculus. At the Master’s level, students undertake coursework in construction techniques, risk analysis, soil mechanics, risk modeling and facility design, while Ph.D. candidates perform work in demand forecasting, probability, freight design, and urban planning. Firms often require advanced degrees to undertake positions of senior management. Ph.D. students have the credentials to teach at the university level, while other advanced students may elect to start their own consulting firms to service larger institutions in the industry. Aspiring business executives should work to develop their negotiating, management and leadership capacities. Often, they will demonstrate superb written and oral communication skills in negotiating, making presentations, and directing human assets in an endeavor.

The Institute of Transportation (ITE), American Society of Highway Engineers (ASHE) , and the American Association of State Highway and Transportation Officials (AASHTO) have dedicated their efforts to advancing the education of practitioners in the field. They work to promote awareness to the field as well as providing insight into best practices and industry trends. A library of publications, research findings and support organizations are available through the associations. Leading firms have made use of these channels when seeking to fulfill vacancies in their companies. In addition, mentoring networks are available to provide assistance for prospective candidates. According to research from the U.S. Bureau of Labor Statistics (BLS), the field is expected to continue to experience robust job growth of 20 percent into the year 2020. The most bountiful opportunities are in the states California, Texas, New York, and Illinois. While exact statistics on the median salary of these professionals is unavailable, O*Net reports that professionals in this industry earn a yearly salary of $80,770.

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Thermal Engineering Degree Program

 Thermal Engineering Degree Program

Though most universities in the United States do not offer formal degrees in thermal engineering, most candidates find employment with a Bachelor’s Degree in mechanical engineering. This level of education is required by employers in the industry. In this course of study, students complete coursework in thermodynamics, computer science and kinetics. Those students who elect to pursue more advanced study in the field at the Master’s and Ph.D. level access career opportunities in advanced research, design and quality control. Coursework at the Master’s level explore theory in heat transfer and mechanics rooted in computer modeling and smart materials that respond to temperature change. Doctoral students embark upon classwork in granular flows, electronics architecture, data storage solutions, as well as material innovation, whereby they assume titled roles like consultant analyst, heat engineer and quality assurance manager. These highly trained professionals are actively recruited by federal organizations like the U.S. Department of Energy and the Defense Advanced Research Project Agency in order to teach both graduate and undergraduate students at esteemed universities around the world. Candidates are served by also developing broader skills in terms of written and oral communication, leadership, negotiating, multitasking as well as team-building and management capacities.

Thermal engineering professionals have access to a medley of organizations and associates to bolster their careers. From the American Society of Mechanical Engineers (ASME), which features a library of resources for present and future practitioners, to the Technology Student Association (TSA), and the National Society of Professional Engineers (NSPE), students and seasoned thermal engineers access information and soil-building resources to buttress their daily learning. They specifically learn of the constantly evolving developments in technology and best practices that are transforming the industry. In addition, updates are provided on events, news and congresses within the field that endeavor to unite and strengthen the community. Young engineers have access to mentoring and networking opportunities that will facilitate their entry and rise into the profession. Moreover, prospective job candidates have access to recruiters from prestigious global firms like Intel, Sony and ConEd. As stated by the U.S. Bureau of Labor Statistics (BLS), the job prospects for thermal engineers are predicted to continue to grow by 9 percent through 2020. The U.S. states of California and Texas are geographic locales featuring the most opportunities for these professionals. According to compensation statistics at O*Net salary data, these engineers earned a median salary of $82,100.

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Academic Requirements for Structural Engineers

 

Academic Requirements for Structural Engineers

Employers require structural engineers to have a college degree in the discipline or comparable areas such as civil engineering. Most professionals have acquired a Master’s Degree or even a Ph.D. to distinguish themselves in the marketplace. Undergraduate students complete coursework in materials, algorithms, design and mechanics, among other concepts. Advanced academic training in the field facilitates a candidate’s ability to receive management positions in the industry as well as university teaching roles. At the Master’s Degree level, students complete classwork in advanced materials design principles, structural mechanics and seismology. For Ph.D. students, coursework includes classes in computer modeling, advanced renovation and restoration as well as risk analysis.

Organizations such as Structural Engineers Association, the Structural Engineering Institute, and the International Association for Bridge and Structural Engineering (IABSE) are a few of the organizations dedicated to fostering the development of professionals in the field. They organized congresses throughout the world to educate and bring together professionals in the industry to trade knowledge and share opportunities and best practices, thereby expanding the breadth and awareness around the industry. Moreover, they feature digital libraries of materials, including journal publications and links to online resources that enhance the toolbox of practitioners.

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Software Engineering Education

 

Software Engineering Education

Software Engineering degrees are available at the undergraduate, master’s, and doctorate (PhD) levels. As you move up in a Software Engineering career, increasing your education level will allow you to tackle ever more complex systems. At the pinnacle of Software Engineering are people that design the systems behind well-known technological marvels from the Space Shuttle to Google’s databases.

Prerequisites

Most colleges require similar courses as prerequisites for their Software Engineering programs. You’ll normally be expected to study mathematics up through Calculus, basic computer programming, and cross-discipline engineering basics. You’ll also take courses in computer algorithms and system documentation methods prior to moving on to the core Software Engineering program.

Undergrad

Once your undergraduate prerequisites are met, you start taking classes in Software Engineering. This is where you gain cutting-edge expertise in skills like requirements identification, system design, software integration and software testing methodologies. During this coursework, you’ll learn how modern software systems are designed and implemented.

There are an incredibly complex number of variables when engineering software components, and a Software Engineering degree provides the educational foundation you need to be productive in the field.

There are numerous avenues for studying Software Engineering. Virtually every major university offers this as an undergraduate major, and many larger colleges offer Master’s and PhD programs as well. You can also get a Software Engineering degree through many of the top online colleges.

Since a lot of the software work being done is on the Internet and mobile devices, studying Software Engineering online can be a flexible and effective method for pursuing your education.

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Prerequisites for a B.S. in Petroleum Engineering

 

Prerequisites for a B.S. in Petroleum Engineering

This curriculum combines college-level mathematics with basic sciences, developing a working knowledge of thermodynamics, material properties, fluid mechanics, material strengths, transport situations, and phase behavior (what to expect from resources when working with them).

Students develop competence in well design and analysis, drilling procedures, and evaluation of subsurface geology. They design and analyze systems that produce, inject, and handle fluids, optimizing resource development and management, using reservoir engineering principles and practices. They are proficient with project economics and resource valuation practices for decision-making under risky and uncertain conditions.

Topping off this degree is a design experience, preparing students for engineering practice, using the knowledge and skills acquired in their coursework.

Since the beginning of petroleum engineering, in the early 20th century, many easily accessed deposits have been depleted. Fuel harvesting has become more dependent on fresh technologies incorporating horizontal drilling and computer modeling.

Drilling in deserts and in deep waters requires today's engineers to have expertise in intelligent systems, geomechanics, and hydraulics, naming only a few things on their growing list of knowledge bases.

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Masters of Nuclear Engineering

Masters of Nuclear Engineering

The basic Bachelor of Science degree in Nuclear Science and Engineering develops practical skills through hands-on education. Laboratory courses cover radiation physics, measurement, and protection. Laboratory exercises work with electronics, imaging and computation. This degree includes courses on nuclear systems and an undergraduate thesis based on any area of nuclear science and engineering.

Absolutely. Students who have completed the bachelor's degree generally need 12-18 months to earn a Master of Science degree, assuming they carry a full load of courses each term.

Many students prefer to pursue a master's in a discipline other than that of their bachelor's degree. They focus on nuclear science and engineering as graduates.

Master's degree candidates usually specialize in fission nuclear technology, nuclear science and technology, or applied plasma physics.

The Bachelor of Science degree in Nuclear Science and Engineering prepares students for careers in the application and engineering of low-energy nuclear physics. This includes design, analysis, and operation of radiation systems and their applications, such as fission reactors and accelerators, and biomedical uses. Students are also prepared for graduate study in a wide range of engineering and physical sciences.

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Employer Requirements for Nanoengineers

 

Employer Requirements for Nanoengineers

Employers require these professionals to have completed at least a Bachelor’s Degree in nanoengineering or chemical engineering to assume a job in the industry. Undergraduate students explore coursework that prepares them for making contributions in the fields of medicine, energy and environmental applications, among others. Students take classes that integrate a medley of math, science and engineering courses that prepare them for the versatile field. Acquiring a Master’s Degree or Ph.D. in the field may be required to qualify for some executive positions with a given company. Advanced education also enables these professionals to undertake teaching roles at universities. For those seeking business-based positions, a candidate should focus on developing leadership and management skills, as they will be asked to spearhead a team of engineers. In addition, they will be asked to communicate and negotiate with suppliers. In this setting, superb oral and written communication skills will prove essential.

The American Society of Mechanical Engineers has organized conferences to expand the discourse and awareness around the field of nanoengineering. In addition, they provide a digital library of resources, including publications, news, and best practices in the field that are vital to practitioners in the industry.

Though the U.S. Bureau of Labor Statistics (BLS) does not provide exact data on job prospects for nano engineers, chemical engineers, a comparable field, expect to see job growth prospects of 6 percent through 2020. The states of California, Texas, New York, Illinois and Michigan feature the most bountiful opportunities for professionals. While exact statistics on the median salary of these professionals is unavailable, O*Net reports that chemical engineers of the same background command a yearly salary of $95, 730.

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Mining Engineering Education Requirements

 

Mining Engineering Education Requirements

Requiring a minimum of a bachelor’s degree from an accredited college or university, the licensing requirements for geological and mining engineering vary by state. Specific degree programs for aspiring geological and mine engineers include Geology, Geophysics, Geological Engineering, Mining Engineering, Mineral Preparation Engineering and Social Geology, among many others, and range from undergraduate Bachelors programs to advanced graduate and post-graduate programs. In addition to materials mining and extraction, additional studies and industry focuses include ecological impact research, which measures broader environmental and ecological effects of mining operations, social geological impact research which focuses on both the sociological hazards and benefits to geological or mining efforts and discovery oriented exploration, studying geological formations below the Earth’s surface so as to refine the broader understanding of the planet’s composition. Regulated by the Mine Safety and Health Administration (MSHA,) the field of geological and mine engineering is one with an intense focus on hazard awareness and occupational safety.

As with any dynamic and engaging field of study, the geological, mineral and mining industries and sciences, the training and education continues well after one has earned their degree. With numerous trade associations, professional networks and academic research societies, such as the American Institute of Professional Geology American Rock Mechanics Association and Association of Environmental and Engineering Geologists  the field of geological and mine engineering is one of a continually evolving nature, with regular conferences and training programs designed to keep geological professionals on the cutting edge of their chosen pursuits. Combining age old techniques in respect to surveying, exploration and extraction, new technologies continue to emerge in the field, bringing new and exciting methods of research and exploratory prospecting into the hands of professionals and students every year. And as these new technologies and discoveries continue to change the professional landscape for those entering the engineering fields of geology or mining, the increasing demands for raw and precious materials by industry and the public at large have led to an increased demand for well educated, qualified professionals to enter the fields.

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Earning Your Mechatronics Engineering Degree

 

Earning Your Mechatronics Engineering Degree

Mechatronic engineers require at least a Bachelor’s degree, whereby most of these professionals have completed undergraduate studies in mechanical engineering. The field, though, transcends this traditional discipline into a variety of fields of study such as electronics, decision-making theories, and information technology, among others. With a Master’s degree in mechatronic engineering, an individual has the credentials to assume management and more advanced research posts. Graduate programs often feature traditional classroom instruction with practical industry experience. Coursework traditionally explore practices in automation theory, methodology, and analysis. An example mechatronic engineering class at the Massachusetts Institute of Technology (MIT), for example, instructs the design of mechatronic systems which integrate mechanical, electrical, and control systems engineering. For those seeking a less rigorous option of entering the field, an associate's degree in mechatronics can be attained at a community college or technical institution. These 2-year degree programs equip candidates with the skills to assume entry-level positions, whereby they troubleshoot maintenance processes. Classroom instruction typically entails course work in robotic design as well as training in engineering drawing.

Students of mechatronics have gone on to develop many of the “smart” devices that have transformed a medley of industries around the world. From robots and anti-lock brakes to photocopiers and computer drives, mechatronics professionals are changing the way people work and live, according to the American Society of Mechanical Engineers (ASME). The technology is also found in humidity sensitive clothes dryers and windshield wipers as well as in healthcare, agriculture, construction, entertainment, automobiles, and tools for the disabled and elderly communities. These technological innovations reflect the dedication these professionals have to becoming life-long learners. With a bevy of associations, professional organizations, societies and resources likes the American Society for Engineering Education (ASEE), the Technology Student Association (TSA), and the National Society of Professional Engineers (NSPE), among others, students and seasoned professionals have seamless access to the knowledge and resources necessary to bolster their education and skills as the industry evolves over time. Organizations such as these also provide mentoring and networking opportunities that have the potential to enhance the prowess of an individual seeking transformative career opportunities and guidance as well as for institutions seeking to attract and nurture talent to their efforts. In addition, esteemed institutions such as MIT offer free online course programs for students and professionals through its Open Course Ware initiative.

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Mechanical Engineering Types of Degrees

 

Mechanical Engineering Types of Degrees

It usually takes four to five years to obtain a bachelor of science in mechanical engineering. Students should seriously think about co-operative education where they take one semester or quarter of university courses and work in an industry-related environment the next semester or quarter.

Co-oping is a paid internship, and oftentimes the job experience can lead to employment at graduation. The ambitious student can take another two years of coursework to obtain a Master's Degree in mechanical engineering. The student who desires to go into research and/or teach engineering can spend another year or two obtaining a PhD.

Online Study

There are some universities that offer online mechanical engineering study programs. However, mechanical engineering is not well suited to online study because this discipline requires hands-on experience with moving parts and instruments.

Additionally, all accredited engineering schools require the design, construction and presentation of a senior design project that is supervised by an engineering professor. This is an educational benefit that an online study program cannot truly offer.

The PE license is a respected seal of competence and assurance of quality. This prestigious license shows that the engineer is at the top of the profession, both in competence and ethics. For consulting engineers and private practitioners, it is essential if not a legal requirement to be licensed. Only professional engineers can sign and seal engineering drawings or serve as qualified expert witnesses.

Moreover, professional engineers can earn higher incomes throughout their career, and the license expands the opportunities beyond the company organization, such as independent consulting.

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Materials Science Engineering Degree Requirements

 

Materials Science Engineering Degree Requirements

Educational requirements throughout given industries range from four year Bachelor’s degrees, to more advanced Masters and Doctorates. Companies and institutions looking to employ Material Science Engineers typically look for a minimum of a Bachelor’s degree, though in a few, very rare instances, mixes of formal education and practical working experience can be acceptable for some entry level positions, in lieu of a formal degree. As Material Science Engineering is considered a “interdisciplinary science,” and covers a broad range of applicable physical sciences, specific focuses of study can weigh heavily on available career options after schooling.

Ranging from thermodynamics, chemical and bio-chemical research, synthetic materials creation and testing and even forensic engineering and investigation, it is often advisable for students entering the field of Material Science Engineering, to fully investigate potential and desired career goals while going through their studies, so as to ensure the appropriate skills and education are attained in pursuit of their end goals. For example, should a student with a strong focus on thermodynamics and mineral based composite materials enter the fields of blast furnace design or rocketry, their skills and education may not be as well suited for bio-medical or bio-mechanical design as one with a stronger focus in bio-mechanics or bio-chemistry. As such, within such a diverse field as Material Science and Engineering, it can be helpful to fully explore available career options either before enrolling in a degree program and while entering the introductory level courses of such, so as to adequately define one’s focus of study going forward.

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Marine Engineering online study

 

Marine Engineering online study

Many schools offer online marine engineering degrees. When making your selection, ensure that your school of choice offers programs accredited by the Accreditation Board for Engineering and Technology.

A four-year bachelor of science degree is sufficient to cover the basic concepts of marine engineering. Those wishing to learn more about a specific facet of the profession are advised to earn a masters (one to two more years), and possibly later a PhD (time varies widely). Certain colleges offer combined masters to PhD programs that help students earn post-graduate education degrees faster.

It should be noted that after finishing a bachelor’s degree, marine engineers typically take several U.S. Coast Guard licensing exams. After successfully passing the Third Assistant License Exam, engineers gain more experience before taking the Second Assistant license. After even more time in the field, marine engineers take the First Assistant license, followed by the Chief Assistant license.

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Industrial Engineering Courses and Curriculum

 

Industrial Engineering Courses and Curriculum

The typical undergraduate degree needed to become an Industrial Engineer is the Bachelor of Science (BS) or Bachelor of Science and Engineering (BSE) in Industrial Engineering (IE). Some Industrial Engineers hold degrees in Industrial & Operations Engineering (IOE), or Industrial & Systems Engineering (ISE).

Similarly to other undergraduate engineering programs, the typical curriculum is built on a foundation of broad math and science courses. Examples include courses in chemistry, physics, mechanics, materials science, computer science, electronics/circuits, and engineering design. In addition several engineering mathematics courses, such as calculus, differential equations, and statistics, are required. These courses are required by virtually all accredited undergraduate engineering programs and prepare students for most engineering licensure exams.

Following the foundational courses, students take courses specific to IE. These specialized courses are in areas such as systems theory, design or analysis, ergonomics/safety, stochastics, optimization, advanced mathematics, computation or modeling, and/or engineering economics. Other subjects typically studied by IE students include management, finance, strategy and other business-oriented course, and social science courses such as psychology or public policy. Some business schools offer programs that overlap with IE, but the engineering programs tend to be more quantitative as well as more rigorous in the basic sciences and mathematics. Bachelor’s degree programs typically include both classroom and laboratory experiences.

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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