Structural Engineering Degree

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. If you want to pursue a career in structural engineering, use the list of schools below to learn more about programs that can help you get started!

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Chemical Engineering Degrees

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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Real Life Stories of Engineers

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.

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Academic Preparation for Transport Engineers

Academic Preparation for Transport Engineers

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

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

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Environmental Engineering Degrees

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.

Environmental engineers are most concerned with the effects of technological advances on the environment. Hazardous-waste treatment is a significant issue needing regulation which these engineers can design and help implement through laboratory and legal avenues.

Worldwide issues in the environmental engineer's expertise include everything from farm runoff to ozone depletion, and all of the water sources in between. Today's engineers often further their education with specialized training in law and use legal paths to access routes to improvement. The study and practice of environmental engineering is as broad as the elements that make up the Earth.

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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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Acoustic Engineering Success Story

Acoustic Engineering Success Story 

The Bose company is a prime example of a firm that relies heavily on the expertise of sound engineers. Founded by Amar G. Bose, an engineer himself, who studied at the Massachusetts Institute of Technology (MIT), the firm built its reputation on developing and marketing audio equipment and systems of impeccable quality. The company’s products are popular among consumers, automobile manufactures and performing arts venues. The equipment developed by their sound engineers strives to simulate the quality experienced at a live concert hall. Bose has chosen to engage in long-term, higher-risk projects requiring immense research and development instead of providing cheaper products to its customers. This approach has paid off with the creation of noise-canceling audio equipment such as headphones as well as ingenious suspension systems for the automobile industry.
As a teacher at MIT for nearly 50 years, Bose instructed a course on acoustics that transcended mere technical matters into larger life lessons. Bose stressed to his students the importance of personal responsibility and having high standards for work and integrity. Many students attributed to Dr. Bose their resolve to take on more risky endeavors as well as the technical and critical-thinking skills to achieve success in their careers. The life of Bose and the success of his company serves as a model for all practitioners in the field, underscoring the importance of developing a well-rounded education and approach to successfully tackling both technical and more abstract challenges that they may encounter both in their personal and professional arenas.
If you are ready to learn more about earning a degree that can help you become an acoustic engineer, contact the schools in our directory to learn more today!

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Real Life of a Structural Engineer

Real Life 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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Academic Requirements for Structural Engineers

Academic Requirements for Structural Engineers

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

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

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