Profession Requirements for Nanoengineers

Profession  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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Automotive Engineering Degrees

Automotive engineering is a branch of mechanical engineering that concerns the design, development and manufacture of cars, trucks, motorcycles and other motor vehicles. Automotive engineers also design and test the many subsystems or components that comprise a motorized vehicle.

Very few universities offer a bachelor's degree in automotive engineering. Consequently, many prospective automotive engineers earn a bachelor's degree in mechanical engineering from a university that also offers specialized courses in automotive engineering. However, there are plenty of universities offer master's degrees in automotive engineering.

High school students aspiring to become automotive engineers should develop a solid foundation in algebra, geometry, trigonometry and pre-calculus, physics and chemistry. These subjects are central to understanding the core concepts of any engineering discipline. Automotive engineering students need effective oral and written communications skills. Therefore, high school students should strive to do well in language arts classes, such as writing and speech. High school students should take available advanced placement or college classes to help prepare them for university engineering coursework and get a head start on building college credits.

Engineering students should choose a college or university that is recognized by the Accreditation Board for Engineering and Technology (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.

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Mechanical Engineering Career

Mechanical engineering is the broadest of the engineering disciplines. This field focuses on two major topics: thermal systems and mechanical systems.

As a result, the mechanical engineering curriculum overlaps many other engineering fields, including aerospace, biomedical, chemical, civil, electrical, industrial, materials and metallurgical and petroleum.

Any prospective engineering student should have a strong high school background in elementary, intermediate and advanced algebra, trigonometry, geometry, pre-calculus, chemistry and physics.

Additionally, the pre-engineering student should have solid reading comprehension skills and the ability to write logically, clearly, concisely and with correct grammar.

University Coursework

The core curriculum of mechanical engineering at any engineering school accredited by the Accreditation Board of Engineering and Technology (ABET) consists of:

• Statics:

  The study of the effect of forces on a stationary body.

• Dynamics:

  The study of the effect of forces on a moving body.

• Materials Science:

  The study of the structure of materials on a molecular and atomic level.

• Thermodynamics:

  The study of heat and its relationship to pressure, density, temperature and work.

• Fluid Dynamics:

  The study of liquids and gases in motion.

• Heat Transfer:

  The study of the heat transfer process from one body to another.

• Structural Analysis or Mechanical Design:

  The study of the effects of loads on a body and its components.

• Kinematics and Dynamics of Machinery:

  The study of a moving body with and without reference to the cause of its motion.

• Electrical Circuits:

  The study of amperage or current flow in a closed loop consisting of voltage sources and resistors.

• Instrumentation and Controls:

  The study of instruments for measurement and controls in modern systems.

• Mechanical Vibrations:

  The study of machine vibrations.

• Computer Science:

  The study of the latest computer language and computer-aided design (CAD).

Before these courses can be taken, however, the aspiring mechanical engineer must develop a thorough understanding of the fundamental subjects of calculus, differential equations, partial differential equations, calculus-based physics and chemistry.

All mechanical engineering programs require multiple semesters or quarters of these subjects. These subjects lay the foundation to the understanding of the core curriculum. The mechanical engineering student cannot master the core mechanical engineering concepts without mastering the fundamentals.

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Automotive Engineering Career Outlook

Automotive Engineering Degrees

Automotive engineering is a branch of mechanical engineering that concerns the design, development and manufacture of cars, trucks, motorcycles and other motor vehicles. Automotive engineers also design and test the many subsystems or components that comprise a motorized vehicle.

Very few universities offer a bachelor's degree in automotive engineering. Consequently, many prospective automotive engineers earn a bachelor's degree in mechanical engineering from a university that also offers specialized courses in automotive engineering. However, there are plenty of universities offer master's degrees in automotive engineering.

High school students aspiring to become automotive engineers should develop a solid foundation in algebra, geometry, trigonometry and pre-calculus, physics and chemistry. These subjects are central to understanding the core concepts of any engineering discipline. Automotive engineering students need effective oral and written communications skills. Therefore, high school students should strive to do well in language arts classes, such as writing and speech. High school students should take available advanced placement or college classes to help prepare them for university engineering coursework and get a head start on building college credits.

Engineering students should choose a college or university that is recognized by the Accreditation Board for Engineering and Technology (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.

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Software Engineering Degrees

Most people are familiar with older, more traditional engineering fields such as mechanical, civil, or electrical. Software Engineering is a relatively new discipline, but in today’s increasingly interconnected world, it is becoming more and more important.

Software Engineering differs from Computer Science or Web Design in that you are formulating how the overall software system functions, and how it works within its intended hardware environment.

Software Engineers are responsible for every phase of a development project, not just for writing the computer code. Upon the initiation of a project, they make sure requirements are documented and validated.

This assures the entire project is working toward the correct goal. They then move on to system design, often overseeing the creation of software prototypes to present to clients for additional validation.

Once the design is solid, Software Engineers manage the overall development effort to make sure the pieces are coming together as planned. Finally, they create and oversee test cases which assure system functionality is complete and traceable to the requirements generated at the time of project initiation.

Software Engineering is the discipline that makes sure computer systems are developed methodically and result in building the right product with quality built in from the beginning.

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