Mechatronic Engineering

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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Materials Science and Engineering Degree Requirements

 

Materials Science and Engineering Degree Requirements

Educational requirements throughout given industries range from four year Bachelor’s degrees, to more advanced Masters and Doctorates. Companies and institutions looking to employ Material Science Engineers typically look for a minimum of a Bachelor’s degree, though in a few, very rare instances, mixes of formal education and practical working experience can be acceptable for some entry level positions, in lieu of a formal degree. As Material Science Engineering is considered a “interdisciplinary science,” and covers a broad range of applicable physical sciences, specific focuses of study can weigh heavily on available career options after schooling.

Ranging from thermodynamics, chemical and bio-chemical research, synthetic materials creation and testing and even forensic engineering and investigation, it is often advisable for students entering the field of Material Science Engineering, to fully investigate potential and desired career goals while going through their studies, so as to ensure the appropriate skills and education are attained in pursuit of their end goals. For example, should a student with a strong focus on thermodynamics and mineral based composite materials enter the fields of blast furnace design or rocketry, their skills and education may not be as well suited for bio-medical or bio-mechanical design as one with a stronger focus in bio-mechanics or bio-chemistry. As such, within such a diverse field as Material Science and Engineering, it can be helpful to fully explore available career options either before enrolling in a degree program and while entering the introductory level courses of such, so as to adequately define one’s focus of study going forward.

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The Main Focus of an Environmental Engineer

 

The 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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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.vThe 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 a Civil Engineer

The Main Focus of a Civil Engineer

"Civil engineering is the oldest and most diverse branch of engineering. In its broadest sense, the civil engineer adapts the physical features of the earth to the needs of society. According to the University of Florida, approximately one out of four engineers is engaged in civil engineering."

Civil engineers design, construct, maintain, and operate infrastructures, while simultaneously safeguarding public and environmental health and upgrading neglected structures and systems. Civil engineering reaches from the natural environment to the constructed environment, focusing on interactions between the two, with an emphasis on sustainability.

Combining atmospheric and energy sciences, civil-engineers study climate, air pollution, and weather, addressing problems which might be solved through renewable energy systems. They examine the availability of renewable resources (wind, hydropower and solar), and best practices for their combinations. These kinds of research brought about the first data based wind map and examine the effects of alternative fuels on air pollution.

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Automotive Engineering Master’s Degree

Automotive Engineering Master’s Degree

A master's degree in automotive engineering is not necessary to work in the field, but such a degree will give students specialized automotive engineering knowledge and skills. Moreover, master's degree programs offer research opportunities for students. It takes about two years to complete a master's degree program in automotive engineering.

Studies include:

• Design and manufacturing
• Energy and environment
• Materials
• Noise and vibration
• Powertrain
• Dynamics and control
• Electronics and computer software
• Ergonomics

To earn a master's degree, the student must satisfy the university's thesis requirements and/or complete a final project.

Online Degree

The few universities that offer online automotive engineering degrees do so only at the master’s degree level. The student gains only theoretical knowledge from an online master's degree. The student does not receive any hands-on experience, which can be important to landing a job in automotive engineering. The online programs assume that the student received hands-on experience while obtaining a bachelor's degree. Therefore, online master's degree programs in automotive engineering are meant for the working automotive engineer.

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Acoustic Engineering Career 

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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Agricultural Engineering Jobs & Salary

 

Agricultural Engineering Jobs & Salary

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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Academic Preparation of Applied Engineers

 

Academic Preparation of Applied Engineers

A Bachelor’s Degree is required by employers to receive a job offer from a firm to work as an applied engineer. This course of study explores the application of principles regarding the design, and creation of products and systems within a manufacturing context. Programs delve into issues as quality control, project management, systems integration and manufacturing processes as well as strive to refine critical-thinking and problem-solving capacities. Students take classes in the basics of production planning, materials science and personnel safety. To assume management positions with some firms, advanced degrees such as a Master’s or Ph.D. may be required. Holders of advanced degrees also have the credentials to teach at the university level. From a business perspective, those seeking executive roles should work to develop their acumen in budget management and negotiation, as they will be asked to broker deals with suppliers and other assets. Superb oral and written communication skills as well as leadership abilities are highly coveted.

The Association of Technology, Management, and Applied Engineering has developed congresses and resources to enhance the visibility of the field and equip practitioners with the latest knowledge and best practices in the industry. Like this organization, the Technology Student Association (TSA) and the National Society of Professional Engineers (NSPE) offer resources and materials to candidates in the field, including a library of publications, news and technological innovations. These associations work to provide rich mentoring and networking opportunities for members and aspiring candidates to enter and/or advance in the field. At the university level, students capitalize on alumni networks and on-campus recruiting efforts made by leading firms to fulfill their talent needs. Companies such as IBM, Ingersoll Rand, General Mills and CoreComm are a sampling of the firms who have acquired new personnel through these avenues. The U.S. Bureau of Labor Statistics (BLS) projects a gradual decline in the employment prospects for these types of professionals, as manufacturing activities fall within the United States. O*Net reports that these professionals earn a yearly salary of $60,560.

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Salary & Job Outlook for Aerospace Engineers

Salary & Job Outlook for Aerospace Engineers

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 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. Other aerospace engineering associations are the Aerospace Industries Association and the American Institute of Aeronautics and Astronautics, Inc.

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.

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Thermal Engineering Career Outlook

Professionals in the field of thermal engineering strive to develop more efficient means for transferring energy into more practical means, drawing on their expertise in heat transfer. Within an industrial context, these engineers work on solutions for fuels, exploring forms of chemical, electrical and mechanical energy. These professionals find specialization in the fields of high technology, solar power, oil and gas, power companies, as well as temperature control systems. Transforming power grids to create more affordable electricity has become one of the most popular fields utilizing the expertise of thermal engineers.

If you want to know more about becoming a thermal engineer, contact the schools listed here to learn more. It’s important to talk to as many schools as you can to determine the best way forward.

Thermal engineers dedicate their efforts to refining electronics systems and safety applications. They collaborate extensively with groups of hardware and software experts at all stages of the product cycle from initial design through the manufacturing and installation of products and systems. In this capacity, they may develop models for industrial assets rooted in computer projects for optimizing source materials and functionality.

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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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Molecular Engineering Degree Career

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 Life of a Nanoengineers

 

Real Life of a Nanoengineers 

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.

Don’t wait to find out how you can create a path towards a career in nanoengineering. Contact the schools below to request more information today.

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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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Mechatronics Engineering Salary and Career

Mechatronics Engineering Salary and  Career

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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Real Life of Materials Science and Engineering

 

Real Life of Materials Science and Engineering

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 problem 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 with 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 biomedical 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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Environmental Engineer Education Requirements

Environmental Engineer Education Requirements

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.

Schools of engineering can vary in their requirements, but are also quite similar. Typically, a university offers the CEE (civil and environmental engineering) degree, and a B.S. in environmental engineering (BS EnvE). The curriculum provides students with the fundamentals to address emerging issues with air and land resources, human health, water, and environmental restoration.All prerequisites must be satisfied before graduating with a B.S. The B.S. EnvE degree requires acceptable letter grades in math, physics, chemistry, and COE.

Students seeking specialized graduate degrees in environmental engineering have four basic choices. Those wanting a career that does not require research can get a master of engineering (M.Eng.) degree. For a master of science (M.S.), students must complete a thesis research project showing their increased knowledge. The Ph.D. degree (doctor of philosophy) is awarded for expertise in research, and the D.Eng. (doctor of engineering) degree awards combined technical expertise with management skills.

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Electrical Engineer Career Outlook

 Electrical Engineer Career Outlook

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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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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Masters Degree in Audio Engineering

 Masters Degree in Audio Engineering

Master's programs are available to those that desire to extend their education in very specific areas of the industry. These programs provide an intense study of a particular area of interest, like game design, music, acoustics, or recording.

Audio engineering degrees require a blend of music, business, and technical classes. Music fundamentals, acoustics, and theory are some of the music classes that are included in the degree. The technical and business courses encompass recording production, audio signal processing, mixing, editing, digital sound design, live sound production, and studio operations.

Audio engineering is a very hands-on profession because it involves the use of a variety of equipment and software. Due to the invaluable experience of actually using the equipment, online degrees are not feasible for the most part. The only exceptions are a few online Master's programs with a focus on acoustics, which does not intricately involve equipment. The length of the program varies with the different degrees. An Associate of Science requires approximately two years of study. Most Bachelor of Science programs take four years to complete. The Master's degree will add at least two years following the Bachelor program for a total of six years.

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.

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