Career and Salary for Chemical Engineering

 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.

Through chemical processes, chemical engineers find new and creative ways of making those things that improve our lives. Their work ranges from developing better skin-care products to finding materials that are more fire-resistant. Chemical engineers can be part of an innovative team at a manufacturing facility or working in cutting-edge research.
As a chemical engineer, you might be a quality control specialist for a corporation that manufactures cleaning products or jet airplanes. You might be discovering less destructive and more sustainable ways to extract and use natural resources. You might be designing or discovering the latest sensation in the eye care industry, better aerosol propellants, more durable paints, and ways to preserve foods and medicines longer. The sky is not the limit; it is just another avenue for what you might discover.

The U.S. Bureau of Labor Statistics show the median annual wage of chemical engineers was $90,300 in May of 2010.

You can gain access to membership in a generous list of professional organizations, associations, and societies through a degree in chemical engineering. These associations offer resources, research opportunities, networking avenues not readily available on the job, and much more.

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What is a Biomedical Engineer?

 

Biomedical Engineering Degrees

A relatively new discipline, biomedical engineering involves research and development that combine medical and biological sciences for the advancement of all healthcare disciplines. It is a growing and evolving career field and according to CNNMoney.com, is the #1 Best Job for 2012 in America.

Some biomedically-engineered phenomena include regenerative tissue growth, pharmaceuticals, high-tech prostheses, diagnostic imaging equipment, and micro-implants. Biomedical engineering includes an increasing subset of specialties. Some of those specialties include:

Tissue Engineering

Organ transplants made from patients' own tissue, offer a quality of life not possible with donor organs. This field has produced solid jawbones and tracheas from human stem cells. Artificial bladders have been developed and successfully transplanted into humans.

Genetic Engineering

Manipulates an organism's genes on a molecular level. Some applications include improved crops, synthetic insulin, and the production of mice more suitable for cancer research.

Neural Engineering

Centers on the repair of neural systems—those pathways that tell our muscles when to move. All paralysis victims have an interest in this science on some level.

Pharmaceutical Engineering

Falls into both biomedical and chemical engineering categories. While some pharmaceuticals have upfront need of biological agents, even the development of chemical drugs requires BME knowledge.

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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 the bachelor's degree. Therefore, online master's degree programs in automotive engineering are meant for the working automotive engineer.

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The Main Focus of an Audio Engineering

 

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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Real-Life Example of an Applied Engineer

 

As a project engineer for Applied Engineering, Mike Jamieson daily exhibits the range of skills a practitioner in the field must master to excel. He interfaces with internal and external team members and associates in-person and over e-mail every morning. He then focusses on business activities such as speaking with various suppliers on product inventory, consulting with clients on budget requirements and researching options on the internet. In the afternoon, he often leaves the office to visit clients and ongoing projects. He enjoys the opportunity to get out of the office and into the field to interact live with people. For example, on one project he consulted with one of the managers on an HVAC system for a residential structure, specifically the ductwork and air flow systems. Later in the afternoon, he returns to the office to revisit projects he initially tacked in the morning. He may attend more meetings to deliver presentations on status or negotiate with suppliers to acquire the best pricing for a client project. Demonstrating his commitment to continuous education, Jamieson in the evenings attends functions featuring industry thought leaders who make presentations on recent development in technology and best practices. In the past he attended a dinner featuring a presentation by a professor at Purdue University who presented a talk on refrigeration concepts and developing compressor innovations. Ultimately, each day presents him with a range of challenges and learning experiences that enrich him.

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Main Focus of an Agricultural Engineering Degree

Agricultural engineering degrees prepare students to work professionally in the many fields of agriculture. Subsets of the studies belonging to the classification of agriculture offer unlimited opportunities for involvement in this field. Demand for Agricultural Engineers has grown over the last 10 years.

Degrees in agricultural engineering cover all aspects of the industry, from water and waste issues, massive farming of foods and livestock, water farming, farming equipment, and farm economics to genetically designed corn and cows.

Earning a degree gives students textbook knowledge and hands-on vision of their chosen field. Fieldwork and laboratory projects combined with actual practice provide a well-rounded education.

The bachelor of science is the first degree to obtain. While majoring in agricultural engineering, a student can minor is any other field. Often students will minor in a related subject such as economics, to enhance their food engineering major, for example.

Graduate students are eligible to pursue a number of advanced degrees, including the Master of Science, Master of Engineering, Master of Agriculture, Doctor of Philosophy and Doctor of Engineering. These students can major in bioacoustics, biomaterials science, bioprocess engineering, environmental and natural resource engineering, food engineering; food, feed and fiber processing; machine and energy systems; and systems analysis.

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Master of Science Degree in Aerospace Engineering

 

Master of Science Degree 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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Aerospace Engineering Degrees

Aerospace engineers research, analyze, design, synthesize, develop and test aircraft, spacecraft and weapons. Aerospace engineers who focus on aircraft are called aeronautical engineers; those who concentrate on spacecraft are called astronautical engineers.

They are essentially concerned with the aerodynamic properties of flight vehicles, such as airfoil, control surfaces, lift and drag.

Aerospace engineer can specialize in areas such as structural design, propulsion, navigation, guidance and control systems, communications or defense systems.

They may also specialize in a particular type of equipment, including commercial and military planes and jets, helicopters, space shuttles, satellites, space vehicles, missiles or or combat aerial vehicles.

Aerospace engineers can develop a special expertise in aerodynamics, thermodynamics, celestial mechanics, propulsion, acoustics, avionics or guidance and control systems.

Prospective engineering students should take as many classes as possible in algebra, geometry, trigonometry and pre-calculus, physics and chemistry because these subjects are critical to understanding the core concepts of aerospace engineering. Because engineers also need effective and written communications skills, students should not overlook language arts classes, such as writing and speech.

Young aerospace engineering graduates have said that they took many Advanced Placement or college classes as in high school to prepare for university engineering coursework.

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Real-life Example of a Transport Engineer Career

Based on the experience of several young practitioners in the profession, the field of transport engineering offers a rich professional experience. Scott Sorensen , an engineer from the University of Nebraska, developed an after school education program to teach principles of engineering to high school students, whereby they designed buildings and created electrical applications for Christmas lights. Matthew Arnold, an engineer from Kansas State University, finds the hands on nature of the field most engaging. He thrives performing outdoors, enabling him the experience the vitality absent working in an office. Both Sorensen and Arnold enjoy the state-of-the-art technology they employ on a daily basis such as self-driving vehicles. New challenges encountered have made the field particularly rewarding for Tomas Lindheimer, an engineer from the University of Kansas. He enjoys the broad concepts and intellectual curiosity the industry demands. He believes he’s constantly learning new concepts that compel him to rethink his preconceived notions.

The direct impact the field has on people’s lives serves as the most attractive part of the profession for these young professionals. Instead of sitting in an office, detached from their fellow man, these engineers see the influence their work has on the daily lives of the people they serve. Many professors and industry executives encourage aspiring students and candidates to carefully consider the impact their work has on society as a whole. It is one of a few industries where practitioners see first-hand the results their technical backgrounds have on the ways people experience their daily lives.

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Thermal Engineering Career

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 Engineering Schools

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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Real-Life Example of a Structural Engineer

 

Real-Life Example 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 remain 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 Degrees

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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Life of a Petroleum Engineer

 

Life of a Petroleum Engineer

Petroleum engineers typically design equipment to extract oil and gas, and develop ways to force oil out of wells through injection of water, chemicals, gases, or steam.

They develop drilling plans, survey, evaluate, and test wells. They use computer-controlled drilling to connect separated deposits to a single well. They ensure proper installation, maintenance, and operation of oil field equipment.

Reservoir engineers optimize production with proper well placement and enhanced recovery techniques. Drilling engineers oversee the technical aspects of drilling exploration, production, and injection wells. Production and subsurface engineers direct connections between reservoirs and wells, overseeing downhole monitoring equipment and flow control, sand control, and perforations.

They select surface equipment to separate fluids (oil, natural gas, and water), and they evaluate artificial lift methods.

Emerging career choices involve pollution cleanup, hydrology, and underground waste disposal (the subsurface injection of carbon dioxide to reduce greenhouse gases). Petroleum engineers are also educated in geothermal energy production, in situ uranium leaching, and coal gasification.

The known worldwide oil and gas reserves are larger than ever. Found in diverse areas, these resources provide opportunities for assignments in the Middle East, Asia, South America, Australia, and beyond.

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Main Focus of a Nuclear Engineering Degree

 

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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Real Life Career of Nanoengineers

 

Real Life Career of 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.

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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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Careers for Mechatronic Engineers

 

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!

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.

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Mechanical Engineering Degrees

Mechanical engineering is the broadest of the engineering disciplines. This field focuses on two major topics: thermal systems and mechanical systems.

As a result, the mechanical engineering curriculum overlaps many other engineering fields, including aerospace, biomedical, chemical, civil, electrical, industrial, materials and metallurgical and petroleum.

Any prospective engineering student should have a strong high school background in elementary, intermediate and advanced algebra, trigonometry, geometry, pre-calculus, chemistry and physics.

Additionally, the pre-engineering student should have solid reading comprehension skills and the ability to write logically, clearly, concisely and with correct grammar.

The core curriculum of mechanical engineering at any engineering school accredited by the Accreditation Board of Engineering and Technology (ABET)

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Real-Life Stories of Materials Science and Engineer

 

Real-Life Stories of Materials Science and Engineer

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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The focus of a Marine Engineering degree

 

The focus 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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