Electrical Engineer Careers and Nature of Work

Electrical engineers specialize in power supply and generation. They design, develop, test and supervise electrical equipment manufacturing. They have also been trained to handle responsibilities like wiring and lighting installations in buildings, automobiles and aircraft.

What is great about being an electrical engineer is that the training is so extensive that graduates may land a job in many different industries such as construction, manufacturing and design.

Moreover, electrical engineers may take part in development and research as assistants to scientists and other engineers. Many kinds of electronic equipment from portable music players to GPS devices pass through an electronic engineer’s hands.

They come up with means to use electrical power to operate a certain product or improve its functions. Among the most challenging and in-demand tasks for electronic engineers today include developing construction plans for electrical lighting systems for skyscrapers, designing remote-controlled race cars and building technology for factories like robots that can perform welding.

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.

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Network Architect Job Description

Network Architect Job Description

Network architects are responsible for planning, setting up and maintaining computer networks, systems and other related infrastructure for organizations. They may also be hired by organizations to improve their existing computer network.

Network architects must also review business structures in order to ensure proper flow and functionality of Internet systems and information databases. They may be responsible for determining how to grant the employees of an organization access to the Internet and in-house information databases in the most affordable and efficient way.

When planning and designing a computer network project on behalf of an organization, a network architect must take many factors into consideration; they must consider a company’s budget, its number of employees and current computer resources.

Network architects are hired on a part-time, full-time or contractual basis by small, medium and large organizations. As designing network systems is typically a one-time project, computer network architects are frequently only needed for a short period of time; many network architects are hired on a part-time or contractual basis.

Network architects may however be hired as full-time employees of contracting companies, or as full-time employees of large organizations that are in may need to continuously monitor and scrutinize their computer network in order to ensure efficiency, and make modifications and improvements.

Read More: system architect 

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

Read More: computer network engineer

Electrical Engineer Careers Nature of Work

Electrical engineers specialize in power supply and generation. They design, develop, test and supervise electrical equipment manufacturing. They have also been trained to handle responsibilities like wiring and lighting installations in buildings, automobiles and aircraft.

What is great about being an electrical engineer is that the training is so extensive that graduates may land a job in many different industries such as construction, manufacturing and design.

Moreover, electrical engineers may take part in development and research as assistants to scientists and other engineers. Many kinds of electronic equipment from portable music players to GPS devices pass through an electronic engineer’s hands.

They come up with means to use electrical power to operate a certain product or improve its functions. Among the most challenging and in-demand tasks for electronic engineers today include developing construction plans for electrical lighting systems for skyscrapers, designing remote-controlled race cars and building technology for factories like robots that can perform welding.

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.

Read More: computer network engineers

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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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.

University Coursework

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

• Statics:

  The study of the effect of forces on a stationary body.

• Dynamics:

  The study of the effect of forces on a moving body.

• Materials Science:

  The study of the structure of materials on a molecular and atomic level.

• Thermodynamics:

  The study of heat and its relationship to pressure, density, temperature and work.

• Fluid Dynamics:

  The study of liquids and gases in motion.

• Heat Transfer:

  The study of the heat transfer process from one body to another.

• Structural Analysis or Mechanical Design:

  The study of the effects of loads on a body and its components.

• Kinematics and Dynamics of Machinery:

  The study of a moving body with and without reference to the cause of its motion.

• Electrical Circuits:

  The study of amperage or current flow in a closed loop consisting of voltage sources and resistors.

• Instrumentation and Controls:

  The study of instruments for measurement and controls in modern systems.

• Mechanical Vibrations:

  The study of machine vibrations.

• Computer Science:

  The study of the latest computer language and computer-aided design (CAD).

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Electronic Engineer Employment and Outlook & Salary

Electronic Engineer Employment and Outlook & Salary

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.

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 electronic 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.

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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, 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.

Medical Devices

Cover all health care products not developed primarily through chemical means. They aid in disease diagnoses, cures, treatment, and prevention. Examples include prostheses, pacemakers, life-sustaining machines, artificial organs, and non-organic implants.

Medical Imaging

Equipment essential to diagnoses typically accounts for hospitals' most complex tools. Radiological techniques through ultrasound, magnetism, and UV, are among medical/biomedical imaging equipment achievements.

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Acoustic Engineering Career Outlook

Acoustic Engineering Career Outlook

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

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Application Services & File Services

Application Services

These are nothing but providing network based services to the users such as web services, database managing, and resource sharing.

• Resource Sharing
  To use resources efficiently and economically, network provides a mean to share them. This may include Servers, Printers, and Storage Media etc.
• Databases
  This application service is one of the most important services. It stores data and information, processes it, and enables the users to retrieve it efficiently by using queries. Databases help organizations to make decisions based on statistics.
• Web Services
  World Wide Web has become the synonym for internet.It is used to connect to the internet, and access files and information services provided by the internet servers.

File Services

File services include sharing and transferring files over the network.

• File Sharing
  One of the reason which gave birth to networking was file sharing. File sharing enables its users to share their data with other users. User can upload the file to a specific server, which is accessible by all intended users. As an alternative, user can make its file shared on its own computer and provides access to intended users.
• File Transfer
  This is an activity to copy or move file from one computer to another computer or to multiple computers, with help of underlying network. Network enables its user to locate other users in the network and transfers files.

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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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Molecular Engineering Career

Molecular engineering entails the creation of molecules and the development of new products from them. Often these molecules do not exist naturally and may not be stable enough to employ beyond a narrow of parameter of uses. It is quite difficult to create these particles, as it requires the manual use of sensitive equipment such as a scanning tunneling microscope. The technology has the capacity to take entire libraries of books and condense their contents into a digital storage device the size of a single cube of sugar. This is an interesting field of engineering, with limitless potential. If you want to learn more about working towards a career in this area, search for schools in your area by using our list below. The work of molecular engineers is present in every industry, including robotics, biotechnology, pharmaceuticals, materials, fashion and entertainment. In addition, the agricultural industry and medical devices field is expected to be transformed by innovations in molecular engineering, thereby forging new markets and employment opportunities for trained professionals.

The field is particularly important for scientific materials research and pharmaceuticals, as it is employed as a sophisticated form of chemical engineering. A potential application of molecular engineering would include a minute device that navigates seamlessly through a human body eradicating cancerous cells thereby precluding them from spreading. Duties of professional in the field may well include using statistics and computer models to predict molecular manipulation outcomes; employ business acumen in marketing applications; demonstrate leadership capabilities in managing a team of engineers and researchers; as well as manage the entire life cycle of product development.

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Applied Engineering Salary and Career Outlook

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

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 airflow 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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Definition of the Internet of Things (IoT)

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.

An IoT ecosystem consists of web-enabled smart devices that use embedded systems, such as processors, sensors and communication hardware, to collect, send and act on data they acquire from their environments. IoT devices share the sensor data they collect by connecting to an IoT gateway or other edge device where data is either sent to the cloud to be analyzed or analyzed locally. Sometimes, these devices communicate with other related devices and act on the information they get from one another. The devices do most of the work without human intervention, although people can interact with the devices -- for instance, to set them up, give them instructions or access the data.

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The Internet of Things Definition

The Internet of Things Definition 

The Internet of Things, commonly abbreviated as IoT, refers to the connection of devices (other than typical fares such as computers and smartphones) to the Internet. Cars, kitchen appliances, and even heart monitors can all be connected through the IoT. And as the Internet of Things grows in the next few years, more devices will join that list. We've compiled a beginner's guide of IoT terms and questions to help you navigate the increasingly connected world.

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 the work area, on portable, possibly a tablet, however, whatever gadget you're utilizing, it's undoubtedly associated with the web.

Internet of Thingd benefits to organizations

IoT benefits to organizations

The internet of things offers several benefits to organizations. Some benefits are industry-specific, and some are applicable across multiple industries. Some of the common benefits of IoT enable businesses to:

• monitor their overall business processes;
• improve the customer experience (CX);
• save time and money;
• enhance employee productivity;
• integrate and adapt business models;
• make better business decisions; and
• generate more revenue.

IoT encourages companies to rethink the ways they approach their businesses and gives them the tools to improve their business strategies.

Generally, IoT is most abundant in manufacturing, transportation and utility organizations, making use of sensors and other IoT devices; however, it has also found use cases for organizations within the agriculture, infrastructure and home automation industries, leading some organizations toward digital transformation.

IoT can benefit farmers in agriculture by making their job easier. Sensors can collect data on rainfall, humidity, temperature and soil content, as well as other factors, that would help automate farming techniques.

Read More: iot industry 

Electrical Engineering Degrees

Electrical engineers study electronics, electromagnetism, and the application of electricity. The products they develop are used in medical technology, game systems, cell phones, robotics, cars, green technologies, and navigation systems, just touching lightly on the list.

Nearly everything that defines modern civilization is linked to electrical engineering. These engineers work in labs, offices, and industries. They develop systems for power generation, transmission, and distribution—have you heard about "the grid?"

In addition to the subjects mentioned above (and still touching only briefly on the scope), this expertise covers power switches (solar, wind, geothermal), design of power systems, and architectural planning. Electrical engineering is behind the development of every electronic thing within your grasp.

Electrical engineers focus on computer systems design, components, and processes. They incorporate research or management using specialized, hands-on knowledge and dealing with public, private, and academic sectors. They are dedicated to continuing education, on-the-job learning, leadership, and applying new techniques to new situations.

The sciences of physics and mathematics are fundamental to this profession, but technical focus accounts for only a fraction of this work. Making proposals to clients, preparing budgets, and calculating project schedules consumes much of these engineers' time. Senior-level engineers often manage a team, so project management skills and strong communication skills are vital.

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