IoT - Internet of Things

The Internet of Things is transforming every corner of life: the home, the office, city streets and beyond. IoT products give us greater control over door locks, lights and appliances; offer insights into resource consumption habits; streamline business processes; and better connect us to the people, systems and environments that shape our daily lives.

Whether you’re a homeowner looking for the best products to start building your connected life, or a business leader looking to take your company to the next level — this is the place to begin. We’ve collected the best and most popular options the IoT has to offer, from smart home devices to enterprise platforms to the software and tools you need to build your own smart, connected products.

Businesses can leverage IoT applications to automate safety tasks (for example, notify authorities when a fire extinguisher in the building is blocked) to performing real-world A/B testing using networked cameras and sensors to detect how customers engage with products.

The Future of IoT

As far as the reach of the Internet of Things, there are more than 12 billion devices that can currently connect to the Internet, and researchers at IDC estimate that by 2020 there will be 26 times more connected things than people.

According to Gartner, consumer applications will drive the number of connected things, while enterprise will account for most of the revenue. IoT adoption is growing, with manufacturing and utilities estimated to have the largest installed base of Things by 2020.

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Lead Audio Visual Technician Job Description

Lead Audio Visual Technician Job Description

Willingness to serve God and provide an innovative and enhanced worship experience for this
community of the United Methodist Church.
• Coordinate/schedule/train AV support volunteers for all worship services and other functions
requested for Gulf Cove UMC. Discuss assignments and communicate clearly.
• Confer with Worship Leader, Music Director, and Pastor to establish cues and directions.
• Ability to select appropriate video backgrounds/pictures to enhance sermon topics and Worship
experience.
• Attend practice sessions/Worship services/occasional special events that require the use of AV
equipment.
• Ensure the proper formatting of slide shows for Worship services ie: spacing and number of
words per slide, and present a finished product free of common errors such grammatical,
typographical, and omissions.
• Have working knowledge of Mac platform, iDevices, DAWs, and various software programs such
as Presonus 32.4.2AI, ProPresenter, Microsoft Office, Studio 1, and computer-controlled lighting
systems.
• Set up and install equipment such as microphones, speakers, video screening, projectors,
video/audio monitors, recording equipment, soundboard, mixing board, wires, cables etc.
• Monitor/mix sound feed to ensure quality.
• Ensure equipment is installed according to the design layout.
• Troubleshoot and resolve equipment issues and media system problems.
• Monitor and manage equipment that needs to be sent out for repair, as needed.
• Clean audio and video equipment, and store properly.
• Compress and digitize audio and video data.
• Ensure the safe storage and integrity of data.

lead av technician job description

Vehicle Engineering Career Outlook

Vehicle Engineering Career Outlook

Very few U.S. universities offer official degrees in vehicle engineering, and thus most practitioners in the field elect to study mechanical engineering. A Bachelor’s Degree is required as a minimum qualification for securing employment in the field. Many mechanical engineering programs integrate courses in automotive electronics and power systems into their curriculum. Students aspiring for the academic certification should demonstrate a strong interest and capacity in math and science courses such as calculus, physics, and more importantly computer science, as most vehicles and systems are based on digital platforms. Students who embark upon advanced education at the graduate level have the skills and training to thrive in the global marketplace. Professionals with Master’s degrees and/or Ph.D.’s have focused their efforts on hybrid electric automotive technology and systems cases. Furthermore, they have the ability to assume senior executive positions within their firms, while others branch out to begin their own ventures. Engineers with this level of academic and professional experience also teach college students. Other skills that have proven to serve aspiring candidates well include strong problem-solving skills, superb written and oral communication capacities, multitasking, budget management, team-building, and social skills, as well as independent judgment.

Professional Outlook and Salary for Vehicle Engineers

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

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Nuclear Engineering Degrees

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 the 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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Mining and Geological Engineering Career

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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Materials Science Engineering

Few studies are as vital to the advancement of industry as Materials Science and Engineering. Focused on the study, discovery and creation of new physical materials for use in everything from medicine, automotive and aerospace engineering and consumer goods, to rocketry and space exploration, careers in Materials Science and Engineering maintain a heavy focus on attention to detail, critical thinking and problem solving skills. As an “interdisciplinary science,” Materials Science and Engineering combines a variety of specific skills and studies, varying upon the professional or scientific objectives of the student. With strong emphasis in areas such as mathematics, thermodynamics, chemistry, bio-chemistry and materials properties (mechanical, transitional, chemical,) Materials Science and Engineering is a study which focuses on the physical materials used in given applications, for the purposes of research, safety, quality control and in certain professional areas, forensic engineering and investigation.

If you are ready to learn more about this area of engineering, contact the schools in our directory to learn more about their degree programs. We work with these schools directly and do not charge for our services. We simply want to help students like you understand your options!

Classically referred to as “metallurgy” in many schools and training programs, Materials Science and Engineering is generally regarded as a relatively new field of study, combining older metallurgic arts and understanding with newer studies of things such as atomic structure, applied physics and the creation and study of newer synthetic materials. Professional opportunities in the field cover a broad spectrum of industrial and scientific sectors, ranging from basic scientific research and discovery to applicable industry specific occupations in fields such as bio-technology, defense and consumer product engineering.

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Industrial Engineering Career

Industrial engineering is actually a far-ranging profession that focuses on optimizing complex processes or systems by reducing wastefulness in production. It focuses on systems of people, money, knowledge, information, equipment, energy, and materials and may address mathematical, physical and social science concerns. It brings to bear the principles and techniques of engineering design on many facets of life and seeks to specify, predict, and evaluate the results derived from these systems or processes.

Industrial engineering is one of the oldest branches of engineering taught in engineering schools, and generally requires that practitioners hold a professional engineering license in order to practice. If you want to learn more about this field, and how to pursue a career in this direction, contact the schools in our directory to receive detailed information you can use to make a decision.

The entry-level qualification needed to work as an industrial engineer is typically a bachelor’s degree in industrial engineering. It is not uncommon, however, for practicing industrial engineers to have degrees in related fields such as mechanical engineering, manufacturing engineering, industrial engineering technology, or general engineering. Many universities that offer degrees in the field offer advanced degrees: master’s and doctoral level program, as well. US News and World Report ranks industrial engineering programs in the United States. In 2012, the top ranked US program was at the Georgia Institute of Technology. As of 2012, it had held this ranking for twenty-two consecutive years. The program at the University of Michigan, Ann Arbor, and University of California, Berkeley, have been ranked second and third in the United States for many years.

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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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Agricultural Engineering Salary and Job Outlook

Agricultural Engineering Salary and Job Outlook

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 2020 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 master of agriculture gives students management-oriented graduate training. Emphasis is on problem solving through science and technology—not research. Problem-solving capabilities must be demonstrated, usually through an internship that provides practical experience. These candidates prepare a professional paper on a problem-solving accomplishment.

Are there Associations for Agricultural Engineers?

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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Acoustical Engineering Career and Salary

Acoustical Engineering Career and Salary

Not many U.S. universities offer official degrees in acoustic studies, so most professionals complete a Bachelor’s Degree in electrical engineering or a comparable course of study. Most employers do require at least a Bachelor’s as a minimum qualification for entry into the workforce. Many students integrate related acoustic theory courses into their degrees by taking classes in statics, circuits, thermodynamics, sound control, and vibrations, among others. A Master’s Degree may be required to qualify for some positions with a given company. At this level, students complete classes in wave propagation, optics and nonlinear acoustics. The Ph.D. level opens further management opportunities in the field, whereby students will have completed a rigorous academic training rooted in statistical analysis. This level of training opens the door to teaching at universities as well. With an eye to business, students should seek to refine their interpersonal and communication skills as well as their leadership capacities in managing a team of engineers and professionals. They may be asked to negotiate and consult with outside suppliers in managing the lifecycle of a development project.

The Technology Student Association (TSA), and the National Society of Professional Engineers (NSPE), provide members and interested parties with comparable tools and information to enhance their value in the contemporary marketplace. All of these institutions publish recent research and logistics regarding industry events and resources to further refine the prowess of practitioners.

Students and job seekers particularly benefit from involvement with these groups, as the institutions provide invaluable networking and mentoring opportunities for individuals to develop relationships with potential employers and their contemporaries in the field. Esteemed firms such as Boeing, Procter & Gamble, and Universal Studios have sought candidates through these avenues. According to the U.S. Bureau of Labor Statistics (BLS), the job growth projections for acoustical engineers remain strong through 2020, where hiring is projected to grow by 10 percent. The states of California, Texas, and Michigan possess the greatest opportunities for professionals. While exact statistics on the median salary of these professionals are unavailable, O*Net reports that electrical engineers of the same background command a yearly salary of $89,180.

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Becoming an Environmental Engineer

Becoming an Environmental Engineer

Environmental engineering studies can lead to a bachelor of science (B.S.) degree, master's degrees (M.S. and M.Eng.), and a Ph.D.

A solid curriculum can include breadth courses in civil engineering, focus courses for additional skills in environmental engineering, a science course extending environmental knowledge, and a design course. The B.S. is a 4-year degree, and graduate degrees can add 18 months to 5 years additional study.

Graduate studies give students advanced skills to solve existing environmental problems and avoid creating more. Students gain practical experience from hands-on laboratory training, and they participate in and conduct research on environmental problems.

Environmental Engineer Employment & Outlook

The U.S. Bureau of Labor Statistics (BLS) reports that environmental engineer employment should grow by 25% from 2006-2016. Complying with environmental regulations and developing ways to clean up existing hazards will require more engineers. Complying with environmental regulations and developing ways to clean up existing hazards will require more engineers.

Prevention is the new emphasis, but control of existing problems and those expected because of population growth will also increase demand. Job opportunities are expected to be good, though a reduction of opportunities could appear as the result of an economic downturn.

Typical Environmental Engineer's Salary

The Bureau of Labor Statistics shows the 2011 median salary at $79,050 with a high of $119,560. They also show the highest employment rates for environmental engineers in the architectural and engineering industry, followed by management, scientific, and technical consulting services. State government positions are twice as prevalent as those with the local and federal governments are. The highest wages are in the oil and gas extraction industry, reaching $133,740.

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Electronic Engineer Employment and Outlook

Electronic Engineer Employment and Outlook

According to the U.S. Bureau of Labor Statistics (BLS), there were about 294,000 electronic engineers employed in 2010. About 14 percent worked for the federal government, 11 percent were employed with wired telecommunications carriers and electronic manufacturing firms and 8 percent held jobs in navigational, electromedical instruments manufacturing, architectural and engineering related services.

The BLS also reports that there will be slower than average growth for electrical engineers. There is only a 6 percent expected increase in the demands for these professionals from 2010 until 2020. This is mainly because of the decline in the manufacturing industry where they are mostly employed.

However, there are good projections for electrical engineers who work on an as-needed basis rather than those who are permanently employed. Similarly, there is a good future ahead for electrical engineers who specialize in research and development.

Typical Electrical Engineer Salary

In 2010, electrical engineers earned as much as $84,540 in median annual wages according to the BLS. The top 10 percent highest earners received about $128,610 while the bottom 10 percent earners took home about $54,030. Among the highest paying electrical engineer jobs in industries employing the largest number of these professionals come from semiconductor and electronics manufacturing companies.

Employees in these firms usually earn about $92,070 on average. This was followed by scientific research and development firms that paid $90,970 in median annual wages.

Electrical engineers with a master’s degree or doctoral degree typically receive higher salaries than those who only obtained a bachelor’s degree. Like any other engineering career, salary rates depend on the employer, location, years of experience and educational background.

Career Advancement

Electrical engineers may undergo further training or education in order to qualify for a position that will enable them to supervise a team of engineers and technicians. It may also qualify them for management positions. They can either be program managers or engineering managers. Alternatively, they can become instructors at universities or colleges.

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Industrial Engineering career

Industrial engineering is actually a far-ranging profession that focuses on optimizing complex processes or systems by reducing wastefulness in production. It focuses on systems of people, money, knowledge, information, equipment, energy, and materials and may address mathematical, physical and social science concerns. It brings to bear the principles and techniques of engineering design on many facets of life and seeks to specify, predict, and evaluate the results derived from these systems or processes.

Industrial engineering is one of the oldest branches of engineering taught in engineering schools and generally requires that practitioners hold a professional engineering license in order to practice. If you want to learn more about this field, and how to pursue a career in this direction, contact the schools in our directory to receive detailed information you can use to make a decision.

Industrial Engineering Schools

The entry-level qualification needed to work as an industrial engineer is typically a bachelor’s degree in industrial engineering. It is not uncommon, however, for practicing industrial engineers to have degrees in related fields such as mechanical engineering, manufacturing engineering, industrial engineering technology, or general engineering. Many universities that offer degrees in the field offer advanced degrees: master’s and doctoral level programs, as well. US News and World Report rank industrial engineering programs in the United States. In 2012, the top-ranked US program was at the Georgia Institute of Technology. As of 2012, it had held this ranking for twenty-two consecutive years. The program at the University of Michigan, Ann Arbor, and the University of California, Berkeley, have been ranked second and third in the United States for many years.

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Different types of engineering careers

Different types of engineering careers

Engineering is a vast field, so most engineers specialise in a particular knowledge area, also known as a discipline.

Most engineering degrees focus on one particular discipline (though there are some that let you try a bit of everything) and graduate recruiters typically specify which engineering degree disciplines they accept. Higher apprenticeships and degree apprenticeships usually start to channel you into a particular discipline. So you need to be aware of the options before you apply for university or for school leaver programs.

These are some of the most common types of engineering careers

• Mechanical engineering. Mechanical engineers understand how forces act on solid objects, how liquids and gases behave, and how energy is converted from one form to another. Mechanical engineers use this knowledge to design machines that can cope with the forces they are placed under and to develop systems such as pumps, fans, turbines and power plants.
• Civil engineering. Civil engineers understand how to design, construct and maintain the man-made parts of our environment. These include buildings, bridges, roads, railways, dams, tunnels and airports. Civil engineers need to understand how forces act on objects and how fluids behave, including how this relates to geology.
• Electrical engineering. Electrical engineers understand how electricity works and how to generate and use it. They might be involved in generating electricity from renewable resources, working in a traditional power station, helping to electrify a railway line or providing a building with heating and power, among other job options.
• Electronic engineering. Electronic engineers understand how electronic components can be used in electrical circuits to affect their behavior. Sophisticated circuits are useful in areas such as communication, navigation, medical technology, and manufacturing technology.
• Chemical engineering. Chemical engineers understand both how chemicals react to form new substances and how the facilities work that performs these reactions on an industrial scale. These facilities produce a vast array of everyday products, including food, fertilizer, pharmaceuticals, cosmetics, plastics, and petrol.