Materials Science Engineering Career and Salary

 

Materials Science Engineering Career and Salary

In general, as a broadly applicable field of study with many avenues open to graduates and post-graduates throughout numerous professional sectors, Material Science and Engineering maintains a respectable average salary in terms of national averages. The US Bureau of Labor Statistics reports that in 2012, the mean salary for a Materials Engineer was $85,150 annually. In comparison, reported a rise in this for 2013 with a reported mean salary of $87,330 per year, with these totals naturally varying between industries and according to educational and experiential backgrounds. Job growth in this particular sector is reported to be effectively flat between 2012 and 2022, according to the BLS, experiencing neither substantial losses nor gains in term of total net employment.

However within the state of California alone, numerous opportunities can be found consistently in the areas of aerospace and defense, medical device design and manufacturing, applied physics research and development (both commercial and academic,) as well as in general consumer products and electronics manufacturing. Additional opportunities in the energy, automotive and information technology sectors can also be found throughout the country and are themselves possessing of growth potential as each of these industries continues to evolve rapidly in light of technological advances.

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The Focuses of a Marine Engineering degree

 

The Focuses of a 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

 

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.

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What is an Electrical Engineer?

 

What is an Electrical Engineer?

Electrical engineers study electronics, electromagnetism, and the application of electricity. The products they develop are used in medical technology, game systems, cell phones, robotics, cars, green technologies, and navigation systems, just touching lightly on the list.

Nearly everything that defines modern civilization is linked to electrical engineering. These engineers work in labs, offices, and industries. They develop systems for power generation, transmission, and distribution—have you heard about "the grid?"

In addition to the subjects mentioned above (and still touching only briefly on the scope), this expertise covers power switches (solar, wind, geothermal), design of power systems, and architectural planning. Electrical engineering is behind the development of every electronic thing within your grasp.

Electrical engineers focus on computer systems design, components, and processes. They incorporate research or management using specialized, hands-on knowledge and dealing with public, private, and academic sectors. They are dedicated to continuing education, on-the-job learning, leadership, and applying new techniques to new situations.

The sciences of physics and mathematics are fundamental to this profession, but technical focus accounts for only a fraction of this work. Making proposals to clients, preparing budgets, and calculating project schedules consumes much of these engineers' time. Senior-level engineers often manage a team, so project management skills and strong communication skills are vital.

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Computer Engineering Career Advancement & Salary

 

Computer Engineering Career Advancement & Salary

Just like their educational background, the job market for Computer Engineers is very broad. Rewarding careers are found in many areas. Robotic manufacturing, security equipment, medical diagnostic devices and personal electronics virtually all have some sort of computer in them.The breadth of this industry means there are many opportunities to expand your skills as well as move up in responsibility and compensation.

According to the U.S. Bureau of Labor Statistics, Computer Hardware Engineers make a median annual salary of $98,610. Jobs in Computer Engineering are, like many other high-paying careers, most available in the Northeast and Southwest. Jobs in Computer Engineering are expected increase by 9% annually. The job market is expanding, and average salaries in the field are respectable.

Studying Computer Engineering can lead to a very rewarding career at the cutting edge of technology. Since virtually every modern device you own has some form of microprocessor in it, there is a growing need for Computer Engineers to design and integrate them. The job market is expanding, and average salaries in the field are respectable.

If you love math and science and want to be a part of the growing technology world, look into one of the many available Computer Engineering college degrees and get started in a rewarding career.

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The main focus of an Audio Engineer

Audio engineering is an intricate blend of science and creativity. It involves technical aspects of equipment set-up and operation, but also requires a creative side to enhance and blend the sounds to produce the desired effects.

Often called sound engineers, these professionals are highly sought after in all areas of the entertainment industry. Musicians depend on audio engineers in the studio and in live performances to polish their sound and to keep it consistent throughout each recording or performance. Audio engineers mix the music and enhance the balance to provide the best final product. In television and movies, audio engineers are responsible for all of the sound effects, music, and sound levels heard in the video productions. Even radio depends on sound engineers to keep their stations operating properly. There are other careers available to audio engineers, but the entertainment industry provides the most opportunity.

For those interested in pursuing a career in the audio engineering field, there are three different levels of degrees available. An Associate in Applied Science will teach the basics of working in the industry. The Bachelor of Science degree goes more in depth in both the music and technical aspects of the business. The Master's degree programs focus on very specific aspects of audio engineering.

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Agricultural Engineering Jobs & Earnings

 

Agricultural Engineering Jobs & Earnings

Food will always be a growing commodity (no pun intended). Jobs for these engineers are found on farms, in manufacturing plants, equipment design, food production, animal production facilities, laboratories, construction, government systems that protect soil and water, and in biofuels engineering—worldwide (for the traveler in you) and just for starters.

These engineers are part of the leadership that help conserve, maintain, and improve our natural resources and environment. These employees will provide engineering assistance to his or her team, field office personnel, and landowners with planning, developing, and constructing on-farm conservation practices and irrigation projects statewide.

The US Bureau of Labor Statistics from 2011 show 2,650 employed agricultural engineers, employment rising by 6.5%, the lowest annual wages at $44,180 and the highest at $118,330. The median pay in this group is $74,630 per year.

The most visible association for agricultural engineers in the U.S. is the American Society of Agricultural and Biological Engineers (ASABE). Based in St. Joseph, Michigan, this international professional society is devoted to agricultural and biological engineering. The organization has about 9,000 members in more than 100 countries. ASABE provides opportunities to share research findings through conferences, journals, and a magazine. It has developed professional standards of practice and given members opportunities to network.

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Job Functions of Applied Engineers

Job Functions of Applied Engineers

Applied engineers work on the application, design and technical components in the development of new products. They integrate systems, thereby enhancing the manufacturing and utilization of an application as well as oversee the development teams within a company. Specific fields of applied engineering including six sigma, learn enterprises, quality control, nanotechnology, manufacturing systems and supply chain logistics and systems, as well as motorsport technology applications. These professionals employ a deliberate approach to solving a medley of problems regarding processes and flow systems, underscoring their highly refined technical, interpersonal and communication skills. Applied engineers have been instrumental in the development of aircraft, automobiles, and smartphones, among other products. If you are interested in becoming an applied engineer, contact the schools below this information to request information about programs near you!

These professionals demonstrate a proclivity to blend technical expertise with real world applications. In industrial settings such as robotics, aviation, computer drafting, electronics, graphic communications, construction and nanofabrication, applied engineers exhibit a range of skills, as they daily execute a bevy of tasks and duties to realize the fruition of a project. They employ statistics in control charts and tables to monitor system integrity; examine and/or establish quality control systems in a facility; execute production timelines; refine inventory systems; utilize production innovation in enhancing management; maintain standards in accordance with federal and municipal codes in maintaining safety and health standards; develop solutions to industrial organization problems; apply marketing and business acumen in the product lifecycle, and more Top firms looking to hire applied engineers include Northrop Grumman, Ford Motor Company and Motorola, Inc. 

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Salary & Job Outlook for Aerospace Engineers

Salary & Job Outlook for Aerospace Engineers

There are a few premier universities like Georgia Institute of Technology and Purdue University that offer online master's degrees in aerospace engineering. The graduate student can study at their convenience, apply classroom lessons at their job and satisfy the same academic standards as if they were on campus.

In 2009, U.S. News and World Report rated Massachusetts Institute of Technology, Georgia Institute of Technology and University of Michigan as the top three U.S. universities that grant doctorates in aerospace engineering.

In 2010, those with a Bachelor's degree earned an average of $97,500 according to the U.S. Bureau of Labor Statistics (BLS). Between 2010 and 2020, the BLS expects a five percent growth in jobs. Because some aerospace engineers work on projects connected to the United States’ national defense, they must pass a background check and qualify for security clearances. These requirements will serve to keep defense jobs in the United States.

There are no specific licenses required for aerospace engineers. Employers hire aerospace engineers based on their academic credentials. Licensing and certification is limited for equipment designed and developed by aerospace engineers. For the most part, these certifications are given by the Federal Aviation Administration or NASA.

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Acoustic Engineering Degree Requirements

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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Real Life Work Nature of a Structural Engineer

 

Real Life Work Nature of a Structural Engineer

John Shmerykowsky , an experienced structural engineer, has witnessed first-hand the rewards of the career as well as the technological transformations that are reshaping the industry. As a principal of his own firm, he spearheaded the work completed at the Phillip Morris building in New York City at 120 Park Avenue. He works primarily as a consultant to architects, while he completed his education at Fountainbleu in Paris. Shmerykowsky has developed his reputation by completing projects that feature unique challenges. For example, the Phillip Morris project possessed a structure that was one quarter positioned over-functioning subway tracks that were employed to transport garbage. His team had to develop an approach that would enable them to complete work on the building while enabling the tracks to run without interruption. He also developed sustainable features in the building including windows conducive to harnessing natural light. 

Over time, he has seen how vital digital applications have become to the industry, whereby he encourages all aspiring professionals to become comfortable with the technology as well as current ones to reman vigilant in keeping current on computer-based trends. His firm Shmerykowsky Consulting Engineers currently seeks structural engineers to add to their team to help realize current projects for their portfolio of clients. Like the company’s founder, the firm seeks engineering professionals that possess a diverse range of technical, business, interpersonal and communication skills that are tantamount to executing current and future structures throughout the world.

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Software Engineering Career Outlook

Software Engineering Career Outlook

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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Real Life Nanoengineers Making an Impact

 

Real Life Nanoengineers Making an Impact

Nanoengineers not only impact the way people live and think on Earth, but also may provide the key to further space exploration. As both the European Space Agency and NASA strive to execute manned missions to other planets like Mars as well as develop more advanced spacesuits and micro-shuttles, nanotechnology will serve an essential role in pushing these endeavors into reality. Nanoengineers will be called upon to reduce the weight and sheer volume of components needed to explore other worlds, thereby reducing the costs associated with such expeditions. This may well enable countries with smaller economies to venture into space. For example, nano engineers at NASA have created sensors rooted in nanotechnology for use on the International Space Station (ISS). The sensor is the size of a postage stamp, yet has the capacity to detect impurities in an astronaut’s air supply, and may well be utilized on potential roving explorations on Mars to gather samples from the red planet. Furthermore, technology companies like Apple have used nanotechnology and professionals to develop their tablet hardware products and musical devices like the iPad mini and iPod nano. The iPod nano, for instance, features a compact, design that clips onto a person’s lapel making it easy for customers to listen to music while being unencumbered by a weighty product. The sleek, minimalist design associated with Apple products illuminates how the field of study bridges the gap between cutting-edge technology and providing useful and lucrative consumer products. As nanotechnology grows with the expertise of its practitioners, its impact will be seen throughout all spheres of human life.

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The Main Focus of a Nuclear Engineering Degree

The Main Focus of a Nuclear Engineering Degree

Nuclear engineering is the most integrated of the engineering disciplines. The many components of nuclear systems (medical imaging, nuclear fission reactors, ultrasensitive contraband detectors, and fusion reactors) must all be understood as well as how they relate to one another. Nuclear engineers must be experts in their primary field, as well as knowledgeable in other fields such as electronics, thermodynamics, physics, and materials science. The fundamentals of one science are often the same tools used in solving problems in the other disciplines.

An undergraduate degree in nuclear science and engineering develops the fundamentals of nuclear processes—their production, interactions, and radiation measurements. These studies bring the student all the way to the design phase of nuclear-based systems, stressing social, health, and energy and security impacts. Studies also incorporate computer methods, thermal-fluid engineering, and electronics—critical tools for a nuclear engineering career.

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.

A five-year program offers an opportunity to earn a Bachelor of Science and a Master of Science in Nuclear Science and Engineering simultaneously.

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Work Nature and Career Mechatronics Engineering

 

Work Nature and Career Mechatronics Engineering

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.

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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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!

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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Materials Science Engineering Opportunities & Salary

 

Materials Science Engineering Opportunities & Salary 

In general, as a broadly applicable field of study with many avenues open to graduates and post-graduates throughout numerous professional sectors, Material Science and Engineering maintains a respectable average salary in terms of national averages. The US Bureau of Labor Statistics reports that in 2012, the mean salary for a Materials Engineer was $85,150 annually. In comparison, Onet.com reported a rise in this for 2013 with a reported mean salary of $87,330 per year, with these totals naturally varying between industries and according to educational and experiential backgrounds. Job growth in this particular sector is reported to be effectively flat between 2012 and 2022, according to the BLS, experiencing neither substantial losses nor gains in term of total net employment.

However within the state of California alone, numerous opportunities can be found consistently in the areas of aerospace and defense, medical device design and manufacturing, applied physics research and development (both commercial and academic,) as well as in general consumer products and electronics manufacturing. Additional opportunities in the energy, automotive and information technology sectors can also be found throughout the country and are themselves possessing of growth potential as each of these industries continues to evolve rapidly in light of technological advances.

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Jobs Specific for Environmental Engineering

 

Jobs Specific for Environmental Engineering

Because technology is always changing, job titles and work settings change, so the niche you set your cap for may be listed under new and expanded headings by the time you have your B.S. Positions for environmental engineers are widespread throughout industry, government, research organizations, management, and consulting. The need exists worldwide for environmental engineers to find solutions to our human needs.

Environmental engineers can choose career opportunities from designing waste treatment facilities and developing management strategies, to creating predictive models of human impacts on the environment and conducting research. They can work with carbon management, structural safety, water and air quality, transportation infrastructure, and sustainability. The list is far too long for this overview.

Environmental engineering degrees can lead to jobs in the power industry, with architectural and engineering firms, engineering consulting firms, and city, state and federal government.

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Computer Engineering Career Advancement & Salary

 Computer Engineering Career Advancement & Salary

Just like their educational background, the job market for Computer Engineers is very broad. Rewarding careers are found in many areas. Robotic manufacturing, security equipment, medical diagnostic devices and personal electronics virtually all have some sort of computer in them. The breadth of this industry means there are many opportunities to expand your skills as well as move up in responsibility and compensation.

According to the U.S. Bureau of Labor Statistics, Computer Hardware Engineers make a median annual salary of $98,610. Jobs in Computer Engineering are, like many other high-paying careers, most available in the Northeast and Southwest. Jobs in Computer Engineering are expected increase by 9% annually. The job market is expanding, and average salaries in the field are respectable.

Studying Computer Engineering can lead to a very rewarding career at the cutting edge of technology. Since virtually every modern device you own has some form of microprocessor in it, there is a growing need for Computer Engineers to design and integrate them. The job market is expanding, and average salaries in the field are respectable.

If you love math and science and want to be a part of the growing technology world, look into one of the many available Computer Engineering college degrees and get started in a rewarding career.

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Get a Masters in Chemical Engineering

Get a Masters in Chemical Engineering

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

 

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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