Molecular Engineering Career Outlook

Molecular engineering entails the creation of molecules and the development of new products from them. Often these molecules do not exist naturally and may not be stable enough to employ beyond a narrow of parameter of uses. It is quite difficult to create these particles, as it requires the manual use of sensitive equipment such as a scanning tunneling microscope. The technology has the capacity to take entire libraries of books and condense their contents into a digital storage device the size of a single cube of sugar. This is an interesting field of engineering, with limitless potential. If you want to learn more about working towards a career in this area, search for schools in your area by using our list below. The work of molecular engineers is present in every industry, including robotics, biotechnology, pharmaceuticals, materials, fashion and entertainment. In addition, the agricultural industry and medical devices field is expected to be transformed by innovations in molecular engineering, thereby forging new markets and employment opportunities for trained professionals.

The field is particularly important for scientific materials research and pharmaceuticals, as it is employed as a sophisticated form of chemical engineering. A potential application of molecular engineering would include a minute device that navigates seamlessly through a human body eradicating cancerous cells thereby precluding them from spreading. Duties of professional in the field may well include using statistics and computer models to predict molecular manipulation outcomes; employ business acumen in marketing applications; demonstrate leadership capabilities in managing a team of engineers and researchers; as well as manage the entire life cycle of product development.

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Real-World Example Geological Engineering

 

Real-World Example of Success in Engineering

The working and academic lives of a mining and geological engineer is one of constant problem solving, exploration, attention to detail and communication. As one of, if not the primary coordinator for digging and mining operations, the engineer is charged with the planning, logistics, safety assurance and contingency/emergency management of their projects. In addition to the technical engineering skills required for the surveying, planning, digging and extraction or study of materials, the project engineers are quite often also required to maintain strong lines of communication with the crews of professional miners or students they are working with. As such, and especially in respect to safety or emergency management, the numbers of women entering the fields has been steadily increasing.

Former University of Arizona mining student and captain of the women’s mine rescue team, Allison Hagerman was interviewed by the school news site UANews.org in 2013, during one of its mining and geological engineering drilling competitions at the school’s San Xavier underground mine. Speaking about her experiences, she highlighted that safety in the field was not only paramount, but also presented a specialization. One which, following her graduation in May of 2013, inspired her to take the reigns as the captain of the women’s rescue team at the San Xavier Mining Laboratory. While talking to UANews about her studies of the mining and geological sciences, Hagerman eagerly pointed out that along with a 100% program graduation rate, her skills and studies allowed her to transition directly out of school into a stable, high paying position in the private sector.

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Mechatronic Engineering Education

Mechatronics engineering revolves around the design, construction and operation of intelligent products and systems, stemming from the integration of hardware and software applications. The Japanese engineer Tetsuro Mori developed the name for the field in 1969, while working as an executive engineer at the firm Yaskawa. The field is still evolving and sometimes is still referred to as Asset Management in the industry. Professionals in this arena develop approaches to industrial problems employing mechanical and electronic solutions and computer applications. They develop products through the integration of diverse technologies for streamlining processes and applications in endeavors like underwater exploration. These engineers create and evaluate factory production lines blending manufacturing and technologies to enhance efficiency. In addition, they preserve and augment manufacturing designs and processes in applications such as robot floor cleaners.
If you are looking for information about Mechatronics and want to speak with colleges and universities about earning your engineering degree, we can help. We work with schools across the nation to inform students of their options for education. Use our directory of schools to request more information today about their programs.

Mechatronic engineers traditionally work in a laboratory, processing plant or engineering office setting, especially among product developers, manufacturing firms, mining or forestry industries, aerospace and defense, government and industry research groups, as well as electrical power facilities. In addition, the skill set is highly desired by prominent global enterprises in the automotive, aerospace and consumer products sectors and in innovative technology firms that manufacture and supply software components and equipment. Often graduates will establish their own firms or capitalize on research opportunities in the fields of bioengineering or nanotechnology. The demand for mechatronic specialists will continue to grow as more institutions seek to integrate technological innovations in the computer, electronic and sensor areas to enhance product processes and services. Institutions across the globe that have capitalized on mechatronics technology include Bosch, Royal Dutch Shell, FOX Racing, and Keurig Green Mountain.

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Mechanical Engineering Work Nature

 

• Engine, turbine and power transmission equipment manufacturing
• Industrial machinery manufacturing
• Motor vehicle manufacturing
• Architectural, engineering and related services
• Railroad rolling stock manufacturing
• The industries with the highest levels of employment were:
  • Architectural, engineering and related services
  • Federal executive branch (Occupation Employment Statistics (OES) designation)
  • Aerospace product and parts manufacturing
  • Navigational, measuring, electromedical and control instruments manufacturing

The industries with the highest levels of employment were:

• Architectural, engineering and related services
• Federal executive branch (Occupation Employment Statistics (OES) designation)
• Aerospace product and parts manufacturing
• Navigational, measuring, electromedical and control instruments manufacturing
• Scientific research and development servic

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Materials Science and Engineering Degree

Few studies are as vital to the advancement of industry as Materials Science and Engineering. Focused on the study, discovery and creation of new physical materials for use in everything from medicine, automotive and aerospace engineering and consumer goods, to rocketry and space exploration, careers in Materials Science and Engineering maintain a heavy focus on attention to detail, critical thinking and problem solving skills. As an “interdisciplinary science,” Materials Science and Engineering combines a variety of specific skills and studies, varying upon the professional or scientific objectives of the student. With strong emphasis in areas such as mathematics, thermodynamics, chemistry, bio-chemistry and materials properties (mechanical, transitional, chemical,) Materials Science and Engineering is a study which focuses on the physical materials used in given applications, for the purposes of research, safety, quality control and in certain professional areas, forensic engineering and investigation.

If you are ready to learn more about this area of engineering, contact the schools in our directory to learn more about their degree programs. We work with these schools directly and do not charge for our services. We simply want to help students like you understand your options!

Classically referred to as “metallurgy” in many schools and training programs, Materials Science and Engineering is generally regarded as a relatively new field of study, combining older metallurgic arts and understanding with newer studies of things such as atomic structure, applied physics and the creation and study of newer synthetic materials. Professional opportunities in the field cover a broad spectrum of industrial and scientific sectors, ranging from basic scientific research and discovery to applicable industry specific occupations in fields such as bio-technology, defense and consumer product engineering.

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Jobs With a Marine Engineering Degree

Marine engineering graduates have a number of career options. They may choose to work as naval combat or propulsion engineers or marine equipment specialists. Becoming a marine systems, marine structural, or ship’s engineer is also a possibility. Others may find the job duties of a marine equipment specialist or hydrographic surveyor more to their liking.

Many companies hiring freshly graduated marine engineers provide hands-on training using new employees’ academic knowledge as a foundation. In general, undergraduate students are expected to take advantage of marine engineering-related work-study jobs and internships to improve their likelihood of being hired post-graduation.

Individuals with a masters or PhD in Marine Engineering usually aim for jobs in government or academia. Working for private design, engineering and architectural firms is also a popular choice. Potential jobs for those holding advanced Marine Engineering degrees include:

• Engineering Professor
• Submarine Engineer
• Shipyard Project Engineer
• Marine Operations Manager

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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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Environmental Engineering Education?

First and Second years

• Students take courses in English composition, mathematics, biology, physics, chemistry, and introductory engineering.

Third year

• Introduces advanced engineering courses, including solid and fluid mechanics, thermodynamics, and laboratories in engineering materials, hydraulic engineering, and environmental monitoring and process engineering.

Fourth-year

• Primarily these studies are based on students' electives and if they are laying the foundation for a graduate level degree.

Graduate Level

Students specializing in environmental engineering can pursue four graduate degrees. The master of engineering (M.Eng.) degree is for those who seek careers that do not include research. The master of science (M.S.) degree requires students to conduct a thesis research project and expand their knowledge.

The doctor of philosophy (Ph.D.) degree is awarded for expertise in research, and the doctor of engineering (D.Eng.) degree is designed to combine 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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Electrical Engineering Education Requirements

A bachelor’s degree is required, to become an electrical engineer. Students can earn a BSEE (bachelor of science in electrical engineering) and the closely related BSCpE (bachelor of science in computer engineering) at many qualified universities.

The completed bachelor of engineering degree usually takes 4 or 5 years, depending on the university and any specialty studies chosen.

Following is an example list of required courses from Florida A&M:

• Engineering Lab
• Mathematics and basic sciences
• General Chemistry I with Lab
• General Physics I and II with Labs
• Calculus I, II, III
• Ordinary Differential Equations
• Applied Linear Algebra
• General engineering core (9 hours)
• Programming I
• Engineering Mechanics
• Thermodynamics
• Introduction to Circuit Analysis
• ECE Engineering Tools Lab
• Advanced Circuit Analysis with Computers
• Advanced Circuits Lab
• Signal & Linear Systems Analysis
• Electronics and Lab
• Digital Logic Design and Lab
• Statistical Topics in E.E.
• Digital Communications
• Micro. Based System Design
• Micro. Based System Design Lab
• Senior Design Project
• Additional courses required of EE Majors
• Advanced Electronic, Electromagnetics, or Power Labs
• Electromagnetic Fields
• Senior Design Project II
• Tier-2 courses
• Technical Electives
• Oral Communication Competency

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Computer Engineering Education

 

Education

Computer Engineering degrees are available at all education levels: undergraduate, master’s and doctorate (PhD). Most undergraduate Computer Engineering programs allow you to specialize along one of several tracks because the entire career field is simply too broad to cover in an undergraduate program.

As you progress in your Computer Engineering career, you’ll be able to study increasingly complex topics in hardware and software systems. Occupying the top tier of Computer Engineering jobs are professionals with vast experience designing the overall system to control things like a passenger airliner, the International Space Station, or a nuclear power plant.

Computer Engineering requires a combination of skills from other engineering disciplines, and most colleges will require the same courses as prerequisites for their degrees. You’ll likely study mathematics up through Calculus, basic software programming, physics and electronic or electrical engineering basics.

Once your prerequisite courses are completed, you start the heart of the curriculum in Computer Engineering. In your upper level courses, you’ll learn how computer-controlled systems are designed from the bottom up. Microprocessor design, firmware creation and circuit boards are just a few of the topics you’ll study. The creation of a single computer is just the beginning. Advanced courses in Computer Engineering teach the techniques for integrating large numbers of computers into complex networks capable of solving massive computational problems.

There are many delivery methods for studying Computer Engineering. There are over 150 universities that offer an undergraduate program, and most top-tier state and private colleges offer Master’s and PhD programs also. You might also pursue a Computer Engineering degree with any of the reputable online colleges.

An undergraduate Computer Engineering degree typically takes four to five years to complete. A Computer Engineering Master’s Degree will normally be completed in two years on a full-time basis, and a doctorate can easily take three years to complete.

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Some of the Jobs for Civil Engineers

 

Civil Engineers focus on six basic infrastructure systems. The structural engineer focuses on design and analysis of buildings and bridges. The geotechnical engineer designs and builds tunnels, pipelines, embankments, and foundations. The environmental engineer analyzes and solves problems involving air and water quality and management of waste and hazardous materials.

Water resources engineers seek ways to improve water sources through hydrology, meteorology, and fluid dynamics. Construction engineers manage projects for erecting buildings, digging tunnels, and laying roads. Transportation engineers design, construct and maintain highways, railways, airfields and ports.

Graduates work for nongovernmental organizations, private companies, government agencies, public or private institutions, national research laboratories, or educational institutions. As for research, while masters-degree graduates can be involved through projects or assignments, it is primarily only those at the Ph.D. level who perform research in this field.

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Chemical Engineering Degree

Chemical engineers are not only the lab coat wearing scientists who stand over beakers, mixing formulas in laboratories. They also work in the field, putting into practice the knowledge gained in laboratories, as well as their own brand of chemistry that applies the physical sciences and the life sciences.

They use mathematics and economics to create processes for converting raw materials or chemicals into forms that are more useful. Today's chemical engineers are involved with biomedical engineering, nanotechnology, and fuel cells, to name a very few of their specialties!

Chemical process engineers focus on the design, manufacture, and operation of industrial plants, their equipment, and the related chemical processes. Chemical product engineers development new or modified substances for consumables ranging from pharmaceuticals and face wipes, to furniture polish, foods, and far beyond.

Chemical engineers may do research at industrial or university levels, designing better pollution control, resource conservation, and safety measures. They can be involved in the design and construction of plants as project engineers, using their knowledge to select equipment, optimize production, minimize costs and increase profitability.

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Jobs with a Biomedical Engineering Degree

 

Jobs with a Biomedical Engineering Degree

Biomedical engineers design prosthetic limbs, artificial organs, and regenerate tissue. They create drugs and pharmaceuticals, collect and analyze biological data, and design life-saving equipment. They work with universities, hospitals, labs, government, industry, and regulatory agencies.

They work with doctors and patients seeking solutions to physical as well as physiological problems. It is important to incorporate into their own specialties any changes in related fields, so engineers scramble to stay abreast as technology rapidly evolves.

Universities teaching advanced levels of biomedical engineering commonly offer post-doctorate and research career opportunities. For example here is a list of research opportunities available through Florida A&M University:

• Tissue Engineering for Bone and Cartilage Replacement
• Advanced Polymeric Materials Characterization and Rheology
• Magnetic Resonance Imaging of Cells, Tissues, and Organisms
• Plasma Reaction Engineering for Pollution Control and Disinfection
• Biomass Conversion to Energy by Enzymatic/Catalytic/Thermal/Plasma Methods
• Advanced Computational Methods in Materials, Catalysis, and Transport
• Solid State Materials Synthesis and Characterization

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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.

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Types of Jobs with Audio Engineering Degree

There is a variety of jobs that audio engineers hold in an equally wide variety of locations. Audio engineers are used in studio settings for the radio, television, movie, and music industries as sound engineers, boom operators, sound designers, sound editors, sound effects editors, and much more. In addition to studio work, there are also options for similar positions in live venues, like sports arenas, theatres, and concert tours.

Based on data collected by the United States Bureau of Labor Statistics (BLS) in May 2012, the mean annual salary for someone in the audio engineering field is just over $55,000. The BLS classifies audio engineers as sound engineering technicians, which includes anyone involved with the operation of equipment used to record, alter, and reproduce sounds in any of a variety of venues where recorded or live sound is used.

Yes, The Audio Engineering Society (AES), the Society of Broadcast Engineers (SBE), and The Society of Professional Audio Recording Services (SPARS) are all organizations dedicated to the audio engineering industry. All three are open to audio engineering professionals and students and all three are dedicated to sharing knowledge and techniques in the industry. They are instrumental in implementing new technology with their members as it is introduced into the business.

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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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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:

• 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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Acoustic Engineering Degree Requirements

These types of professionals may be asked to perform a variety of duties based on the industry they choose to employ their skills and knowledge. In the construction industry, engineers may execute sound and environmental evaluations on a building to ensure it meets codes and regulations. They may examine how alterations in the design of a structure may impact sound quality. In an industrial setting, these professionals utilize digital hardware and software to determine means for lessening sound disruptions in a work facility, while inquiring into how vibrations impact factory equipment or transportation structures such as a bridge or automobile. In the entertainment sphere, these professionals often work to optimize sound quality in recording studios and in live performance venues, evaluating how structures, materials and digital equipment and software enhance sound quality. Often, bioengineering firms seek these professionals to address how ultrasound and other forms of technology provide the best treatment options for patients under a medical professional’s care. Firms across the world like Sony, LA Live, the NFL, Bose, and Honda are a few of the huge companies seeking the services of these acoustic experts.

Not many U.S. universities offer official degrees in acoustic studies, so most professionals complete a Bachelor’s Degree in electrical engineering or a comparable course of study. Most employers do require at least a Bachelor’s as a minimum qualification for entry into the workforce. Many students integrate related acoustic theory courses into their degrees by taking classes in statics, circuits, thermodynamics, sound control, and vibrations, among others. A Master’s Degree may be required to qualify for some positions with a given company. At this level, students complete classes in wave propagation, optics and nonlinear acoustics. The Ph.D. level opens further management opportunities in the field, whereby students will have completed a rigorous academic training rooted in statistical analysis. This level of training opens the door to teaching at universities as well. With an eye to business, students should seek to refine their interpersonal and communication skills as well as their leadership capacities in managing a team of engineers and professionals. They may be asked to negotiate and consult with outside suppliers in managing the lifecycle of a development project.

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