Master of Science Degree and Doctorate in Aerospace Engineering

Graduate students seeking a master's or doctorate degrees to augment their undergraduate or graduate education can take advanced courses in:

• Aerodynamics and fluid mechanics
  • The study of air flow over a body, such as the wings on an aircraft or spacecraft.

• Aeroelasticity and structural dynamics
  • The study of how inertial, elastic and aerodynamic forces interact.

• Flight mechanics and control
  • The study of how forces affect a flight vehicle, how it responds to those forces and how to modify the vehicle to achieve the desired goals.

• Propulsion and combustion
  • The study of creating mechanical power using internal combustion engines, jet engines, turbomachinery, propellers, wings, fins, and wheel and axles to generate force causing motion.

• Structural mechanics and materials behavior
  • The study of the stress and strain on the components of a flight vehicle.

• System design and optimization
• The study of the application of algorithms to improve the performance, weight, reliability and/or cost of aircraft and spacecraft systems.

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Acoustic Engineering Degree Requirements

 Acoustic engineers focus their efforts on the shaping and control of sound. They work to manipulate and capture the vibration of sound by harnessing the best quality for hearing. These engineers work to manage noise control in a variety of industrial, commercial and domestic settings. Acoustic engineers develop noise buffers and sound barriers to optimize hearing as well as refine technology used in recording and live performance such as microphones and amplifiers. Moreover, they often work to develop solutions for transferring sound energy into electricity. Other professionals in the field design interiors by selecting specific construction materials and aesthetic products to customize the sound experience of a given living or work environment. Private enterprises in the fields of construction, architecture, and entertainment are a few of the employers seeking the expertise of these professionals. They often strive to perfect the sound experience in concert halls and recording studios, while others may employ their skills in the healthcare industry with work on equipment like hearing aids.

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.

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Professional Outlook and Salary for Vehicle Engineers

Professionals in this field have been integral in developing the hybrid electric car technology that has transformed the automotive industry. The American Society of Mechanical Engineers (ASME) provides a bevy of resources for current and aspiring engineers in the field. Moreover, the National Society of Professional Engineers (NSPE), furnish professionals and students with transformative knowledge and tools to embolden their ability to thrive as technology and techniques evolve. There are regular updates on news in the industry, events, seminars and educational conferences to enhance and develop the skills of the community. In addition, professionals capitalize on networking and mentoring opportunities as well as recruiting efforts from major corporations like Ford Motor Co. and General Electric. Based on data from the U.S. Bureau of Labor Statistics (BLS), the employment opportunities for these engineers is expected to grow through the year 2020 by 9 percent. The U.S. cities with the most opportunities and highest salaries for these professionals are Detroit and Auburn Hills, Michigan. The states of California and Texas are the next two locations with the greatest career prospects. According to statistics at O*Net salary data, these engineers earned a median salary of $82,100.

Ford Motor Company is one of many companies that value and actively recruit vehicle engineering professionals to their organization. In a Detroit News profile of Alana Strager, a Ford program manager with a background in the field, the executive illuminated the various duties and responsibilities she performs daily in their work producing the Ford F-150 truck. Her background enabled her to seamlessly lead a team of engineers and product developers in refining a product that served their customers’ needs while featuring the latest technological features. Known as the “Queen of Innovation”, Strager helped assemble a team of insightful marketers, astute engineers, and expert designers in developing a product coveted by a range of consumers. Her work on the truck’s BoxLink technology particularly illustrated the medley of skills demanded and refined by the engineering profession. The system consists of four slots located in the interior of the truck’s bed that enable users to fasten supplies, materials, and other objects to the truck. Though the bed features fixed mounting slots, the metallic cleats may be removed, enabling the feature to be customized based on the flexible needs of customers. In Strager’s view, people purchase vehicles like the Ford F-150 to help each other, thereby underscoring not only the practical utility of the truck but its social community component as well. Her career at Ford illuminates the importance in vehicle engineering of developing well-rounded skills to execute technological initiatives that address consumer needs in the global marketplace.

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Transport Engineering Career Outlook

Transportation engineering focuses on the design and development of public transportation infrastructure and systems. As a discipline of civil engineering, practitioners endeavor to create roads, bridges, mass transit systems and other modes of transport to enhance society. In this capacity, these practitioners may design, operate and repair any of these assets with the aim of producing fast, efficient, safe, cost-effective, and sustainable forms of transport. Airport, highway, railroad and port engineering are all subsets of the discipline.

Learn more about becoming a transport engineer by contacting the schools below to request information about their programs! On a daily basis, transport engineers juggle a medley of tasks from interfacing with clients and suppliers in-person and over e-mail to meeting with their teams to receive project status updates and to address any complications in a project lifecycle. More business-oriented professionals may attend strategy sessions with their executive teams and/or meet with current and potential investors to discuss prospective opportunities in the market place. In the evenings, many professionals engage in continuing education initiatives, whereby they may take a course on new technological advances and/or attend a presentation by an academic or industry practitioner to receive insight on best practices or solutions to existing problems.

National and local governments, as well as private firms, seek to employ these professionals for global projects, where they are given the responsibility to ensure safety and efficiency, whereby they are entrusted to ensure public safety by meeting building codes and standards through computer hardware and software applications.

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Networking and Work Nature for Thermal Engineers

 

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.

Thermal engineers have been instrumental in changing the way people find and use energy throughout the world as well as in pushing space exploration into new realms. Most people think of Google as an Internet search engine company, but the firm has expanded its resources into creating better energy solutions for the planet. The firm actively recruits thermal engineers to work on its project for developing clean and affordable power grids. Their Energy Access team endeavors to recruit and nurture engineers to its efforts, underscoring its conviction in its identity as an engineering firm.

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Structural Engineering Career

 

Structural Engineering

Structural Engineering focuses on the support integrity of large developments such as buildings, bridges and stadiums. Structural engineers are responsible for some of the most import constructions in history, including Washington Roebling who built the Brooklyn Bridge in New York and Gustave Eiffel who completed The Eiffel Tower in Paris, France. Structural engineers traditionally collaborate with a team of professionals including architects, urban planners and civil engineers, among others, to realize the completion of a project.

Federal and local governments as well as private enterprises contract these practitioners for work throughout the world, whereby they are entrusted to ensure public safety by meeting building codes and standards. For buildings, these professionals achieve this by developing the components such as roof framing columns and foundations. In bridges, they develop the piers, deck and/or stringers. In addition, they select the most appropriate materials including wood, concrete, steel and/or aluminum, thereby protecting the structure and surrounding communities in the case of natural disasters, weather, collisions or explosions. To determine the best materials, structural engineers rely on digital hardware and software applications for modeling and analysis.

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Software Engineering Career Outlook

 

Career Advancement

The job market for Software Engineers is incredibly broad. There are software components involved in virtually every modern development you can think of. Computers control everything from aircraft to medical imaging devices, and these systems are conceived and executed by Software Engineers.

Since it’s such a big part of our daily lives, most people think immediately of software running on the Internet when they envision a career in this arena. While there are a plethora of rewarding jobs developing software for use on the Internet, it’s a good thing to know that there are also rewarding jobs in areas like computer simulations, artificial intelligence, real-time systems, aerospace, and embedded systems.

Salary

According to an October 18th, 2012 report on GlassDoor.com, Software Engineers at top companies average $92,648 annually. Google topped the compensation charts, paying their Software Engineers an average of $128,336.

The US Government’s Bureau of Labor Statistics reports earnings on multiple software development jobs, none specifically labeled as Software Engineers. However, the average annual earnings reported for several different Software Engineering-related career fields corroborate the salary figures reported by GlassDoor.

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Petroleum Engineering Degrees

The Main Focus of Petroleum Engineering

Petroleum engineering deals with the production of hydrocarbons—the products of crude oil and natural gas. This above-ground field focuses on recovering fossil fuels from below ground in the most economical and environmentally friendly ways.

Trained to understand the physical behavior of oil, water, and gas deep in porous rock and under high pressure, these skilled engineers make reliable estimations of the volume of a resource's reservoir.

They form teams with geologists to determine the best methods for depleting reservoirs. Related disciplines include drilling, reservoir simulation, well engineering, petroleum geology, and geophysics.

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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Complete a Nuclear Engineering Program

The Bachelor of Science degree in Nuclear Science and Engineering is a basic four-year course, but a specialized five-year course can incorporate a master's degree. The Ph.D. degree generally adds two years of study beyond the master's.

Because nuclear science and engineering has such a broad range, graduates can be prepared for a wide variety of careers. Today's graduates enjoy research and teaching jobs at universities; they work at power plants and in government and industrial laboratories. They have launched LED lighting companies. They manage hedge funds, create interactive science and art displays, design new reactors, improve aircraft components, attend medical school, and design domestic energy policies.

Average Salaries for Nuclear Engineers

Bureau of Labor statistics for 2011 show nuclear engineers earning a mean annual wage of $105,160, a bottom average wage of $67,100, and a top wage of $147,670. Rise in employment was estimated at 9.4 percent.

Associations for Nuclear Engineers

Some professional organizations for nuclear engineers are the American Nuclear Society, the American Physical Society, the Health Physics Society, the Institute of Nuclear Materials Management, and the International Radiation Physics Society. Membership offers opportunities to stay abreast in the field, to engage with other nuclear engineers, and to share experiences through conferences and publications.

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Discover the World of Nanoengineering

Nanoengineering encompasses the practice of the profession on a nanoscale, which stems from the nanometer unit of measure, equivalent to one billionth of a meter. Within the industry, nanoengineering is synonymous with practices of nanotechnology, whereby it focuses on the engineering component of a given technology rather than the scientific side. Nanotechnology professionals have become prized professionals in the current marketplace for their skills and training dealing with microscopic applications.

From the automobile and energy industry to healthcare and technology firms, companies around the world eagerly seek to attract and develop these professionals. Within these realms, scanning tunneling microscopy (STM) and atomic force microscopy (AFM) are the dominant techniques of the field used to solve problems and originate new technologies. Both techniques pivot on generating microscopic probes to manipulate and track the movement of atoms with the idea of capturing something significant to translate into real world applications such as revolutionary manufacturing materials or new pharmaceutical products.

Professionals in this field often perform a medley of duties depending on the industry they work in and/or their educational backgrounds. In biosciences, nanoengineers dedicate their time to developing new medical device products and ways to enhance existing ones. From a construction viewpoint, these experts investigate and evaluate the development of new materials to develop more sustainable and durable building products and materials. Automotive companies employ these engineers to develop more efficient processes within an engine system and materials to build and pad vehicle systems and interiors. Regardless of the field, these engineers choose to employ their skills and talents, the field requires immense patience and attention to detail. Refining the effective use of STMs and AFMs, critical to the development of new technologies and breakthroughs, often proves to be challenging for most practitioners in the field. Powerful microscopes with exceptionally fine silicon tips are employed to monitor the nano activity harnessed to develop new applications. Establishing a suitable tip, though, can sometimes take seven days alone. Nevertheless, global firms like Abbott Laboratories, Tesla, Exxon-Mobil, and Sony are a few of the global firms capitalizing on the potential of nanotechnology.

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Real Example of Molecular Engineers

 As it is an emerging field with seemingly unlimited potential, the field of molecular engineering has stirred some controversy regarding its implications ethically, environmentally and socially. At the same time, the science promises to exert its influence in all spheres of human life around the world. In the medical devices industry, a recent case study of Ortho Molecular illuminated the powerful potential of this form of engineering. The firm employs a ProScan metal detection system, rooted in molecular engineering, which was developed by Advanced Detection Systems (ADS). This ensures the quality of all of the products in its manufacturing system. The device memorizes the product sensory impulse, and then recalls it as it travels through the scanner, thereby ensuring the finished product meets all Food and Drug Administration health and safety codes. The ProScan application evaluates the entire device to identify the presence of any metal. If it is detected, a signal occurs compelling a check of the entire batch of deliverables. The system enables quality control staff to quickly identify integrity breaches and remedy them seamlessly. Molecular engineering was critical in developing this acute detection system application. Ortho Molecular purchased several of the ADS systems for its medical device product manufacturing processes because of its sensitivity and efficiency.

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Mining and Geological Engineering

Mining and geological engineering focuses primarily on the study and design of creating safe and effective means to extract metals and minerals for industrial, commercial and scientific purposes. Requiring education and understanding not only of mining principles and practices, engineers in this field are also expected to have an advanced and dynamic understanding of geological sciences, such as soil and mineral composition, surveying, prospecting and exploratory geological research. In addition to extracting the more conventional materials such as oil, precious and industrial metals and rarer gems and materials, many new advancements in information technology have expanded the role of geological engineering to search and mine for other materials, such as the dozens of special minerals and materials used in computer, tablet and smart phone construction.

At EducatingEngineers, we want you to understand the complexities of engineering careers and what it takes to succeed in your education. Please read the information below to learn more. And contact the schools in our directory to get started!
Working in the field

Employed by governments, major corporations, non-profit organizations and scientific/academic research institutions, geological engineers play pivotal roles in everything from industrial production of materials and energy, to advancing scientific understanding of the material composition of the Earth. Because of the numerous and varied functions for geological engineering and the substantial technological advancements made in the field itself, the role of the engineer in respect to mining and geological research continues to evolve, finding new and interesting applications for the science with each passing year.

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Working with a Mechatronics Engineering Degree

Though the US Bureau of Labor Statistics (BLS) does not maintain employment or salary data on mechatronics engineers, it does have statistics for the related industries of mechanical and electrical engineer. According to research at the BLS, demand for these types of professionals should likely experience five percent growth until at least 2022. Moreover, the bureau foresees electrical and electronics engineers to experience four percent growth in their career prospects. In contrast, electrical and electronic engineering technicians will likely see little or no growth over the time period. Based on O*Net salary data, mechatronic engineers earned a median salary of $92,680. In a state comparison for earning potential, the BLS found that mechanical engineering professionals in California earned the highest salary at $112,100. Professionals in Texas received $98,030 in yearly salary compensation. Engineers in New York and Illinois earned approximately $95,020 in pay annually.

Careers for Mechatronic Engineers

Companies like Harris & Bruno have formed partnerships with schools like Sierra College in California to seamlessly integrate students from the classroom to applying their knowledge to real world mechatronics applications. Markus Fredrickson, a Sierra College student, works part-time in manufacturing at Harris & Bruno. When he first began his education, he did not have a clear direction for his career. However, the collaborative approach of his university and the private enterprise has provided him with direction and the practical outlet for his skills. He described his work with the firm as a seamless experience bridging his classroom education with real world scenarios. Many of the parts and systems he encountered in his classroom work echoed the very same components and problems he was asked to solve on the job. Ultimately, he found his theoretical and practical education as invaluable in facilitating his career advancement. These types of programs reflect the potential for students and companies as they integrate their resources and expertise in growing the industry. This boasts well for both current and prospective professionals in the field and the industry as a whole as more evolutions occur in terms of technology and human resources.
If you would like to learn more about mechatronics or other areas of engineering, contact the schools in our directory to receive more helpful information. We recommend contacting multiple schools to be sure you choose the best one for you!

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Mechanical Engineering Degree

 

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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Materials Science Engineering Real Life

 

Real Life Stories of Engineers

Beyond these statistical realities and potential however, many within the fields of Materials Science and Engineering express substantial personal and professional satisfaction with their work and career. Bringing together the applicable skills of dynamic critical thinking and problems solving with those of analytical research and scientific endeavor, the challenges posed to the working professional often result in an enhanced satisfaction with successful end results in respect to projects and ventures undertaken. In seeing the final real world applications to their research, development and testing of new and existing materials, Material Engineers often find themselves on the cutting edge of scientific discovery and advancement.

Taking for example, the case of NASA engineer Clara Wright, the pliable skills learned while studying Material Science and Engineering have given Ms. Wright substantial personal fulfillment, in addition to her remarkable career. Being possessed since her youth with an interest in puzzles and problem solving, Wright gravitated naturally towards the field of material science and engineering. Upon completing her degree, Wright first entered the field of bio-medical research, assisting with the design and development of prosthetic limbs for amputees. Later, Wright took a position at NASA working as a materials engineer, studying materials in use by the space program. In July of 2014, Wright was profiled for NASA’s website, in an effort to highlight both her contributions to the space program, while also the interest and dedication to Material Science and Engineering which brought her to work there.

"I'm very passionate about being a materials engineer," Wright said. "It’s a very fulfilling career particularly at Kennedy because every investigation is unique. It is greatly gratifying to say that I am one of a handful of people in the world who get to work on hardware that is going to the International Space Station, has been in the vacuum of space or is part of the launch structures."

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Marine Engineering Degree

During the course of obtaining a marine engineering degree, you will learn how to apply the principles of engineering to systems that help seafaring vessels, docks and other aquatic entities function. This may include designing and evaluating propulsion and power supply systems to assist communication and navigational devices, engines, foul-weather gear and many other types of marine tools. Becoming a marine engineer takes time, patience, dedication, and commitment to your studies.

You can study for a bachelors, masters or PhD in marine engineering, which will prepare you to design and evaluate sea-faring vessels and other equipment while on land. Alternatively, you can enroll in the United States Merchant Marines Academy and learn how to operate and care for a ship’s equipment with one of three degrees: Marine Engineering, Marine Engineering Systems, and Marine Engineering.

While every engineering school has slightly different requirements, in general, undergraduate applicants should have completed high school with excellent advanced science and math course grades. High ACT or SAT test scores are also helpful when applying for a program in marine engineering.

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Working Life of an Industrial Engineer

Depending upon the specific tasks they are performing, industrial engineers work both in offices and in the settings they are working to improve. If they are observing problems, for instance, they may watch workers assemble parts in a factory, or staff performing their functions in hospitals. When solving problems, industrial engineers may work in an office at a computer, where they examine data that they themselves, or others, have gathered. Industrial engineers may need to travel for work in order to observe processes and make assessments in various work settings. In 2012, the industries that employed the greatest number of industrial engineers were: aerospace product and parts manufacturing, machinery manufacturing, architectural, engineering, and related services, motor vehicle parts manufacturing, and management of companies and enterprises. Industrial engineers need good interpersonal skills to be able to work alongside other professionals and serve as a bridge between the technical and business sides of an organization.

Recently, the University of Chicago conducted a study to obtain information about job satisfaction in the United States. Although job and career are not the only determinants of overall happiness and life satisfaction, they do contribute substantially to an individual’s sense of well-being. According to the study, the occupation “industrial engineer” was among the top ten careers associated with general happiness. In fact, it ranked ninth. When compensation for these top-ten careers was examined, “industrial engineers” ranked third.
When looking at the reported reasons for happiness, i.e. creativity, use of expertise, helping others, it is easy to understand why industrial engineers ranked in the top ten careers for happiness. IEs are trained to use quantitative and non-quantitative expertise in creative was to improve processes and products while making jobs easier and more efficient.

If you are ready to learn even more about pursuing a career in the field of industrial engineering, please contact the schools in your area to receive more information. We recommend comparing multiple programs to be sure you choose the best one for you.

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Main Focus of an Environmental Engineer

Engineers are the world's lifeline to everything that defines our civilization, not unlike the Romans with their aqueducts, toilets, and sewer systems. Environmental engineering is a critical career field that helps keep our planet inhabitable and sustainable.

If you are considering embarking on a career dedicated to environmental engineering, there are many facets of your education that will come into play, and the more you know now, the better engineer you will be.

Your role as an environmental engineer will involve providing safe and plentiful water supplies, developing systems for reducing pollutants in air, water and hazardous wastes; anticipating the effects of contaminants' transport, and correcting improper disposal situations where hazardous materials are concerned.

As an environmental engineer, you will seek solutions to public health threats, improvements in and adherence to the law surrounding sanitation and construction, waste disposal, recycling, industrial hygiene, and environmental sustainability.

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Electrical Engineers Work Nature

Electrical engineering has been at the forefront of every technological gain of the past century. This growth is perhaps most evident in the development of today's increasingly smaller transistors, as the number of components placed with an integrated circuit doubles continuously.

Enabling all other technologies and far outpacing them in development speed, electrical engineering has increasing demand and positive career possibilities for qualified professionals.

Electrical engineers earn $87,180 yearly on average, according to U.S Bureau of Labor Statistics (BLS).

A basic market pricing report was composed using data from a Salary.com survey of employers through all industries. This report showed $61,740 as a typical entry-level salary for an electrical engineer in the U.S.

Another report issued by Florida State University showed electrical engineers as ranking fifth nationally in 2010-2011 with salaries beginning at $60,800 and reaching $104,000

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Computer Engineering Career Outlook

 

Most people own or have ready access to a personal computer. These marvels of modern technology have revolutionized everything from the way we get our news to how we communicate with friends and relatives to how we entertain ourselves. However, the traditional PC or laptop is only one type of computer. Virtually every modern machine and process is computer-controlled. Some computers are tiny, as in the smallest cell phones and MP3 players.

Other computers are actually massive networks of thinking machines, working on terabytes of data and cranking out billions of calculations per second. The common factor making these machines possible is the Computer Engineer. Computer Engineering differs from Software Engineering and Computer Science in that it focuses on the actual hardware that’s responsible for performing the work. Software is the set of instructions used by a computer to get work done.

Without Computer Engineers designing the hardware platform it runs on, software would be so many useless bits of data. While they need to know the principles of software operation, Computer Engineers are responsible for designing the components of a computing system. Whether that computer is in the Stealth Bomber or under your car’s hood, all computers have similar components and functions, varying mostly in size, shape and application.

Computer Engineers design everything from the Central Processing Unit to primary and secondary memory storage to input and output methods. Even if they are using off-the-shelf components, they’re responsible for making sure the integration works flawlessly.

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