Electrical Engineer Career Outlook

Electrical Engineer Career Outlook

A bachelor’s degree is needed to become an electrical engineer. This is an area of specialty in the engineering field, and these degrees will prepare an individual for an entry level job. It is important to start studying for their chosen career as early as high school.

Aspiring electrical engineers have to take as much math and science coursework as possible including algebra, calculus and trigonometry. Drafting courses are also valuable. This is mainly because engineering students are usually required to do technical drawings. Bachelor’s degrees take four years to complete and include laboratory, classroom and field work.

Electrical engineers may have to obtain a master’s degree or other training certifications in order to qualify for research positions. There are five-year programs that offer both bachelor’s and master’s degrees together. They should pass the Fundamentals Engineering exam to obtain a license after the bachelor’s degree and Principles and Practice of Engineering exam after an internship.

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.

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Network Architect Career Skills & Salary

Network Architect Career Skills & Salary

Soft Skills

• The ability to think logically and analyze complex problems

• The ability to work effectively under pressure

• Excellent communication and interpersonal skills

• Must have ingenuity and take initiative

Hard Skills

• Knowledge of how to adjust network sizes to meet volume or capacity demands

• Able to develop conceptual, logical, and physical network designs

• Able to develop procedures to track, project, or report network availability, reliability, capacity, or utilization

• Able to design, build, or operate equipment configuration prototypes, including network hardware, software, servers, or server operation systems

The salary level of network architects can vary depending on their level of education, their level of experience, the size and type of their employer, and many other factors.

Network Architect Salary Alberta: According to the 2011 Alberta Wage and Salary Survey, Albertans working in the Computer and Network Operators and Web Technicians occupational group earn an average of between $26.65 and $38.98 per hour.

Network Architect Salary Canada: According to Service Canada, workers in the Information Systems Analysts and Consultants occupational group earn an average salary of $63,081 per year.

Network Architect Salary United States: American workers in the Computer Network Architects occupational group earn a median salary level of $91,000 per year according to the United States Bureau of Labor Statistics.

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What is the Internet of Things?

What is the Internet of Things?

The Internet of Things, or IoT, refers to the billions of physical devices around the world that are now connected to the internet, all collecting and sharing data. Thanks to the arrival of super-cheap computer chips and the ubiquity of wireless networks, it's possible to turn anything, from something as small as a pill to something as big as an aeroplane, into a part of the IoT. Connecting up all these different objects and adding sensors to them adds a level of digital intelligence to devices that would be otherwise dumb, enabling them to communicate real-time data without involving a human being. The Internet of Things is making the fabric of the world around us more smarter and more responsive, merging the digital and physical universes.

IoT can also make use of artificial intelligence (AI) and machine learning to aid in making data collecting processes easier and more dynamic.

The internet of things helps people live and work smarter, as well as gain complete control over their lives. In addition to offering smart devices to automate homes, IoT is essential to business. IoT provides businesses with a real-time look into how their systems really work, delivering insights into everything from the performance of machines to supply chain and logistics operations.

IoT enables companies to automate processes and reduce labor costs. It also cuts down on waste and improves service delivery, making it less expensive to manufacture and deliver goods, as well as offering transparency into customer transactions.

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Electronic Engineer Employment and Outlook

Electronic Engineer Employment and Outlook

A bachelor’s degree is needed to become an electrical engineer. This is an area of specialty in the engineering field, and these degrees will prepare an individual for an entry level job. It is important to start studying for their chosen career as early as high school.

Aspiring electrical engineers have to take as much math and science coursework as possible including algebra, calculus and trigonometry. Drafting courses are also valuable. This is mainly because engineering students are usually required to do technical drawings. Bachelor’s degrees take four years to complete and include laboratory, classroom and field work.

Electrical engineers may have to obtain a master’s degree or other training certifications in order to qualify for research positions. There are five-year programs that offer both bachelor’s and master’s degrees together. They should pass the Fundamentals Engineering exam to obtain a license after the bachelor’s degree and Principles and Practice of Engineering exam after an internship.

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.

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Petroleum Engineer Work Nature

Petroleum Engineer Work Nature

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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Mechanical Engineering Careers and Salary

A mechanical engineer can work in industries such as aerospace, automobile, combustion engines and fuels, fluid machinery, manufacturing and construction and building sciences. A postgraduate of mechanical engineering has a host of career opportunities in other fields, such as law, business and medicine. A lawyer with a mechanical engineering degree can have a very lucrative career in patent or products liability law.

Employment opportunities in management are more available for the mechanical engineer who has a master's degree in engineering or business administration. Additionally, mechanical engineers with a postgraduate degree in biomedical engineering might work for private medical companies or hospitals developing hip replacements, prosthetics, robotic surgical equipment or diagnostic and treatment equipment.

Salary

According to data released by the U.S. Bureau of Labor Statistics (BLS) in May, 2011, mechanical engineers earned an average annual income of $83,550.

The industries with the highest concentration of mechanical engineers were:

• Engine, turbine and power transmission equipment manufacturing
• Industrial machinery manufacturing
• Motor vehicle manufacturing
• Architectural, engineering and related services
• Railroad rolling stock manufacturing
• The industries with the highest levels of employment were:
  • Architectural, engineering and related services
  • Federal executive branch (Occupation Employment Statistics (OES) designation)
  • Aerospace product and parts manufacturing
  • Navigational, measuring, electromedical and control instruments manufacturing

The industries with the highest levels of employment were:

• Architectural, engineering and related services
• Federal executive branch (Occupation Employment Statistics (OES) designation)
• Aerospace product and parts manufacturing
• Navigational, measuring, electromedical and control instruments manufacturing
• Scientific research and development services

The top paying industries for mechanical engineers were:

• Lessors of real estate
• Oil and gas extraction
• Bakeries and tortilla manufacturing
• Other professional, scientific and technical services
• Spectator sports

The annual salaries for these industries range between $102,000 and $117,000 according to the BLS.

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Electrical Engineer Career Outlook

Electrical Engineer Career Outlook

Electronic engineers perform their duties in offices and laboratories but may also be sent to work sites for supervising and troubleshooting. This is especially true for those who work in companies that manufacture complex equipment. They spend about 40 hours per week at work, but they may work longer than this.

A typical day for an electrical engineer varies depending on their employer. Those who work for the federal government may handle responsibilities in areas of research, development and electronic device evaluation that may cover systems for manufacturing, transportation, aviation and communication. Electrical engineers use design software and equipment in their projects.

A bachelor’s degree is needed to become an electrical engineer. This is an area of specialty in the engineering field, and these degrees will prepare an individual for an entry level job. It is important to start studying for their chosen career as early as high school.

Aspiring electrical engineers have to take as much math and science coursework as possible including algebra, calculus and trigonometry. Drafting courses are also valuable. This is mainly because engineering students are usually required to do technical drawings. Bachelor’s degrees take four years to complete and include laboratory, classroom and field work.

Electrical engineers may have to obtain a master’s degree or other training certifications in order to qualify for research positions. There are five-year programs that offer both bachelor’s and master’s degrees together. They should pass the Fundamentals Engineering exam to obtain a license after the bachelor’s degree and Principles and Practice of Engineering exam after an internship.

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Masters of Biomedical Engineering

Masters of Biomedical Engineering

Master's degrees in biomedical engineering are encouraged, and generally require five more quarters of study, but options are becoming available. Colorado State University and Duke University, for example, offer cutting-edge approaches to dual-degree coursework.

CSU's dual-degree biomedical engineering bachelor's program coursework focuses on improving health, fighting disease, and aiding those with disabilities. The masters strengthen experience in the sciences, and animal and human medicine. Earning two degrees in 5 years is an excellent beginning to a successful career as a biomedical engineer.

Duke's BME combines hands-on experience with interdisciplinary research in the detection and treatment of human disease. Many undergraduates are involved in independent-study research.
After earning their 4-year B.S., most students earn a master's in less than 2 years and a Ph.D. in less than six.

Georgia Tech's Master of Biomedical Innovation and Development (BioID) is another example of collaborative instruction between biomedical technology and hands-on experience.
This degree addresses a gap in current education—the “bench-to-bedside” progression that takes products from research to patients.

Full biomedical engineering education is not feasible without laboratory and fieldwork. However, there are some online options. Colorado State offers several online courses toward the biomedical engineering degree.

Biomedical engineers design prosthetic limbs, artificial organs, and regenerate tissue. They create drugs and pharmaceuticals, collect and analyze biological data, and design life-saving equipment. They work with universities, hospitals, labs, government, industry, and regulatory agencies.

They work with doctors and patients seeking solutions to physical as well as physiological problems. It is important to incorporate into their own specialties any changes in related fields, so engineers scramble to stay abreast as technology rapidly evolves.

Universities teaching advanced levels of biomedical engineering commonly offer post-doctorate and research career opportunities. For example here is a list of research opportunities available through Florida A&M University:

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Acoustical Engineering Career

Acoustical Engineering Career

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 the 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 remains 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 is unavailable, O*Net reports that electrical engineers of the same background command a yearly salary of $89,180.

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DCN - Internetworking

In real world scenario, networks under same administration are generally scattered geographically. There may exist requirement of connecting two different networks of same kind as well as of different kinds. Routing between two networks is called internetworking.

Networks can be considered different based on various parameters such as, Protocol, topology, Layer-2 network and addressing scheme.

In internetworking, routers have knowledge of each other’s address and addresses beyond them. They can be statically configured go on different network or they can learn by using internetworking routing protocol.

Routing protocols which are used within an organization or administration are called Interior Gateway Protocols or IGP. RIP, OSPF are examples of IGP. Routing between different organizations or administrations may have Exterior Gateway Protocol, and there is only one EGP i.e. Border Gateway Protocol.

Tunneling

If they are two geographically separate networks, which want to communicate with each other, they may deploy a dedicated line between or they have to pass their data through intermediate networks.

Tunneling is a mechanism by which two or more same networks communicate with each other, by passing intermediate networking complexities. Tunneling is configured at both ends.

When the data enters from one end of Tunnel, it is tagged. This tagged data is then routed inside the intermediate or transit network to reach the other end of Tunnel. When data exists the Tunnel its tag is removed and delivered to the other part of the network.

Both ends seem as if they are directly connected and tagging makes data travel through transit network without any modifications.

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Work Conditions for Network Architects

Work Conditions for Network Architects

Working Hours: Network architects typically work normal weekday working schedules, which involves working 35-40 hours per week. They may be required to work some evenings or weekends to meet deadlines or solve specific problems.

Work Setting: Network architects usually work in well-lit offices or laboratories in comfortable surroundings. Network architects that work for contracting or consulting companies, or that work as self-employed contractors, may work in several different offices or buildings throughout the year.

Work Environment: The workday of a network architect may be quite stressful and busy, as they are responsible for designing and planning new computer networks for a company. Network architects frequently work in teams, but may also work independently. They frequently consult with customers, programmers, managers, and other staff members

Skills Needed to Become a Network Architect

In order to become successful in a career as a network architect, you need to posses a certain set of skills and personality traits. These skills and traits will allow you to perform your job duties with competence, as well as maintain enthusiasm for your work.

• Enjoy working with other information technology professionals

• A keen interest in keeping up to date with technological advancements

• Enjoy performing work that involves precision

• Enjoy developing and implementing solutions for network problems

• Results-oriented approach to work activities

• Value feelings of accomplishment

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Academic Requirements for Molecular Engineers

Academic Requirements for Molecular Engineers

A Bachelor’s Degree is mandated by companies seeking to offer jobs to aspiring candidates in the field. Colleges and universities throughout the United States offer programs in bimolecular engineering and the related chemical engineering. Candidates are encouraged to expose themselves to broad subjects in math and science, including but not limited to mechanics, thermodynamics and chemistry. Job applicants with more advanced credentials such as a Master’s Degree or Ph.D. have a greater potential to assume senior management positions with a company as well as teach university students. At this level, students complete coursework in advanced bioenergy, fuel cells and polymers. Those candidates more interested in the commercial side of the industry should refine their business acumen, particularly their negotiating skills, leadership qualities and written and oral communication capacities, as they will be responsible for managing teams, making presentations and acquiring assets.

Salary, Career Outlook, and Networking for Engineers

The Society for Molecular Biology and Evolution is one of many associations dedicated to the advancement of professionals and the field as a whole. Related organizations like the National Society of Professional Engineers (NSPE) and the Technology Student Association (TSA) endeavor to accomplish these same goals by organizing meetings throughout the globe that expand the discourse on technological innovations and best practices in the industry. They feature vast digital libraries of industry and academic publications and related resources. Mentoring and networking outlets exist as well that bolster a members or aspiring professional’s ability to grow within the field of molecular engineering. Practitioners should also consult social media outlets and an array of associations in the field founded by universities throughout the country. University-based alumni associations and career placement centers possess further resources and outlets for students to learn of what companies seek as well as on-campus recruiting initiatives. Companies such as Google, Boeing, Genentech, and Bayer Pharmaceuticals have employed these avenues to recruit new talent to their efforts. Based on data from the U.S. Bureau of Labor Statistics (BLS), molecular and chemical engineers expect a job growth rates of 6 percent to the year 2020. Illinois, California, New York, and Texas offer the most opportunities for candidates. Data provided by O*Net indicates that engineers in this field earn a yearly salary of $92,680.

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Applied Engineering Career

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

Job Functions of Applied Engineering

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

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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.

The Internet of Things (iot) is transforming every corner of life: the home, the office, city streets and beyond. 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 has to offer, from smart home devices to enterprise platforms to the software and tools you need to build your own smart, connected products.

We as a whole realize that IoT  is changing ventures in all cases – from agribusiness to human services to assembling and everything in the middle of – yet what is , precisely? Working for an Internet of Things (IoT ) organization, I get posed that inquiry constantly and, over that time, I've endeavored to come it down to something anybody can comprehend. Here's all that you have to think about the web of things.

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The history of the Internet of Things

The history of the Internet of Things

The idea of adding sensors and intelligence to basic objects was discussed throughout the 1980s and 1990s (and there are arguably some much earlier ancestors), but apart from some early projects -- including an internet-connected vending machine -- progress was slow simply because the technology wasn't ready. Chips were too big and bulky and there was no way for objects to communicate effectively.

Processors that were cheap and power-frugal enough to be all but disposable were needed before it finally became cost-effective to connect up billions of devices. The adoption of RFID tags -- low-power chips that can communicate wirelessly -- solved some of this issue, along with the increasing availability of broadband internet and cellular and wireless networking. The adoption of IPv6 -- which, among other things, should provide enough IP addresses for every device the world (or indeed this galaxy) is ever likely to need -- was also a necessary step for the IoT to scale. 

Kevin Ashton coined the phrase 'Internet of Things' in 1999, although it took at least another decade for the technology to catch up with the vision.

The Internet of Things, or IoT, refers to the billions of physical devices around the world that are now connected to the internet, all collecting and sharing data. Thanks to the arrival of super-cheap computer chips and the ubiquity of wireless networks, it's possible to turn anything, from something as small as a pill to something as big as an aeroplane, into a part of the IoT. Connecting up all these different objects and adding sensors to them adds a level of digital intelligence to devices that would be otherwise dumb, enabling them to communicate real-time data without involving a human being. The Internet of Things is making the fabric of the world around us more smarter and more responsive, merging the digital and physical universes.

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IoT technology stack – from IoT devices

We as a whole realize that IoT is changing ventures in all cases – from agribusiness to human services to assembling and everything in the middle of – yet what is IoT, precisely? Working for an Internet of Things (IoT) organization, I get posed that inquiry constantly and, over that time, I've endeavored to come it down to something anybody can comprehend. Here's all that you have to think about the web of things.

In the event that you recently read that and thought, "alright… what?", you're not the only one. The vast majority neither need nor to need to plunge into the bare essential of IoT. So right now, furnish you with a straightforward clarification of the Internet of Things and how it might affect you. This can likewise fill in as an asset to impart to other people who need a prologue to IoT (like companions, relatives, or clients).

Before we bounce in, note that "The Internet of Things" and "IoT" can and will be utilized conversely. What's more, a fast tip: abstain from saying "the IoT."
How are you perusing this post at the present time? It may be on work area, on portable, possibly a tablet, however whatever gadget you're utilizing, it's undoubtedly associated with the web.

A web association is a great thing, it give every one of us sorts of advantages that simply weren't conceivable previously. In case you're mature enough, think about your cellphone before it was a cell phone. You could call and you could message sure, yet now you can peruse any book, observe any motion picture, or tune in to any melody all in the palm of your hand. Also, that is simply to give some examples of the inconceivable things your cell phone can do.

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