The scope of IoT

Internet of Things can connect devices embedded in various systems to the internet. When devices/objects can represent themselves digitally, they can be controlled from anywhere. The connectivity then helps us capture more data from more places, ensuring more ways of increasing efficiency and improving safety and IoT security.

IoT is a transformational force that can help companies improve performance through IoT analytics and IoT Security to deliver better results. Businesses in the utilities, oil & gas, insurance, manufacturing, transportation, infrastructure and retail sectors can reap the benefits of IoT by making more informed decisions, aided by the torrent of interactional and transactional data at their disposal.

Internet of Things is truly a game changing concept and whatever challenges may be present, there will be rapid growth in the number of connected devices. There is still need for us to understand concepts of IoT and the flaws that are underlying. As more and more devices start to connect the need will force technocrats to come up with most advanced concepts and methods to ensure growth of this technology.

The profession of an audio-visual technician

The profession of an audio-visual technician

Audio-visual technicians set up, operate and maintain equipment to record and edit images and sound for radio and television broadcasts, at live events and for telecommunication signals.

• Audiovisual equipment
  The characteristics and usage of different tools that stimulate the sight and audio senses.
• Audiovisual products
  The different types of audiovisual products and their requirements, such as documentaries, low budget movies, television series, records, CDs, and others.

• Apply health and safety standards
  Adhere to standards of hygiene and safety established by respective authorities.
• Maintain audiovisual equipment
  Perform routine maintenance tasks on audiovisual equipment as well as minor repairs, such as replacing parts and calibrating the instruments, on equipment used in processing sound and images.
• Transfer uncut audiovisual material to a computer
  Transfer uncut audiovisual materials to a computer, synchronize them and store them.
• Adapt to the type of media
  Adapt to different types of media such as television, movies, commercials, and others. Adapt work to the type of media, the scale of production, budget, genres within the type of media, and others.

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AV Technician Job Description

• AV Technician Job Description 

• An AV technician is required to look into the issues related to soundcheck while telecasting a live event such as sound mixing, voice recording, microphones etc.

• Further, the technician may be required to enhance the video quality by the means of computers or look into the matters of video recording, light management or checking of spotlights.

• They may also give support for teleconferencing with other people during a show.

• They may also be required to edit and copy the videos of some show and store the DVDs used in a show.

• An AV technician needs to be proficient in handling software related work for the purpose of regulating computer used in multimedia production.

• AV technician may be required to deal with clients at various levels, so he or she must be good at communication skills.

• Further an AV technician must check that their work is finished before the deadline so as to avoid any future disturbances.

• An AV technician is also required to assemble and repair equipments used in multimedia production.

• An AV technician may have to do variety of work such as editions in graphic detailing using the computer or use a camera to shoot a show.

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Thermal Engineering Degrees

Thermal Engineering Degrees

A range of private enterprises actively seeks to add thermal engineers to their organizations. From technology firms and automotive companies to utility power firms, the skills of a thermal engineer are sought to deliver efficient solutions to energy problems. Specifically, these companies integrate engineers into projects such as refining power converters and circuit breakers; overseeing thermal design projects including analysis and manufacturing integrity; collaborating with manufacturing groups and vendors internally and externally to manage a product development cycle, and analyzing risks and opportunities with a given product or system. Traditionally, these professionals are required to travel to various locations for in-person consultations and evaluations of a facility or project. More senior professionals who assume management roles are required to recruit and manage teams of engineers in bringing to fruition a project within a designated corporate budget. Communication and people skills, of course, are a vital asset for professionals in this capacity. Global corporations such as Google, General Motors, Duke Energy, and Apple are a few of the firms seeking thermal engineers of various backgrounds to lead and execute their industry initiatives.

Choosing a Degree Program that Fits This Career

Though most universities in the United States do not offer formal degrees in thermal engineering, most candidates find employment with a Bachelor’s Degree in mechanical engineering. This level of education is required by employers in the industry. In this course of study, students complete coursework in thermodynamics, computer science and kinetics. Those students who elect to pursue more advanced study in the field at the Master’s and Ph.D. level access career opportunities in advanced research, design and quality control. Coursework at the Master’s level explore theory in heat transfer and mechanics rooted in computer modeling and smart materials that respond to temperature change. Doctoral students embark upon classwork in granular flows, electronics architecture, data storage solutions, as well as material innovation, whereby they assume titled roles like consultant analyst, heat engineer and quality assurance manager. These highly trained professionals are actively recruited by federal organizations like the U.S. Department of Energy and the Defense Advanced Research Project Agency in order to teach both graduate and undergraduate students at esteemed universities around the world. Candidates are served by also developing broader skills in terms of written and oral communication, leadership, negotiating, multitasking as well as team-building and management capacities.

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Nanoengineering Career

Nanoengineering encompasses the practice of the profession on a nanoscale, which stems from the nanometer unit of measure, equivalent to one billionth of a meter. Within the industry, nanoengineering is synonymous with practices of nanotechnology, whereby it focuses on the engineering component of a given technology rather than the scientific side. Nanotechnology professionals have become prized professionals in the current marketplace for their skills and training dealing with microscopic applications.

From the automobile and energy industry to healthcare and technology firms, companies around the world eagerly seek to attract and develop these professionals. Within these realms, scanning tunneling microscopy (STM) and atomic force microscopy (AFM) are the dominant techniques of the field used to solve problems and originate new technologies. Both techniques pivot on generating microscopic probes to manipulate and track the movement of atoms with the idea of capturing something significant to translate into real world applications such as revolutionary manufacturing materials or new pharmaceutical products.

Professionals in this field often perform a medley of duties depending on the industry they work in and/or their educational backgrounds. In biosciences, nanoengineers dedicate their time to developing new medical device products and ways to enhance existing ones. From a construction viewpoint, these experts investigate and evaluate the development of new materials to develop more sustainable and durable building products and materials. Automotive companies employ these engineers to develop more efficient processes within an engine system and materials to build and pad vehicle systems and interiors. Regardless of the field, these engineers choose to employ their skills and talents, the field requires immense patience and attention to detail. Refining the effective use of STMs and AFMs, critical to the development of new technologies and breakthroughs, often proves to be challenging for most practitioners in the field. Powerful microscopes with exceptionally fine silicon tips are employed to monitor the nano activity harnessed to develop new applications. Establishing a suitable tip, though, can sometimes take seven days alone. Nevertheless, global firms like Abbott Laboratories, Tesla, Exxon-Mobil, and Sony are a few of the global firms capitalizing on the potential of nanotechnology.

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Materials Science Engineering Degree Requirements

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

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

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Industrial Engineering Career and Work Nature

It is expected that employment of industrial engineers may grow 5 percent between 2012 and 2022. This is actually a lower expected growth rate than in many other careers, even in other branches of engineering. Industrial engineers are employed in a broad array of settings, and the type of work they do is very varied. Most industrial engineers work in manufacturing as well as in professional, technical, and scientific services. Median wages for industrial engineers in the United States as a whole were $80,300 in 2013, according to ONet. In New York State, the median wage for industrial engineers was $79,800, whereas in Texas the median wage is $91,800. In Florida, the median wage was $68,500. Clearly, different areas of the country pay industrial engineers very differently.

According to the US Bureau of Labor Statistics, the range between the lowest and highest paid percentages of industrial engineers was $52,000 yearly, or $24.98 hourly, versus $119,500 yearly, or $57.43 hourly as of 2013. Within the profession, the specific industry an individual works in, as well as the tasks they perform and how experienced they are is responsible for these differences.

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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Computer Engineering Education

Computer Engineering degrees are available at all education levels: undergraduate, masters and doctorate (PhD). Most undergraduate Computer Engineering programs allow you to specialize along one of several tracks because the entire career field is simply too broad to cover in an undergraduate program.

As you progress in your Computer Engineering career, you’ll be able to study increasingly complex topics in hardware and software systems. Occupying the top tier of Computer Engineering jobs are professionals with vast experience designing the overall system to control things like a passenger airliner, the International Space Station, or a nuclear power plant.

Computer Engineering requires a combination of skills from other engineering disciplines, and most colleges will require the same courses as prerequisites for their degrees. You’ll likely study mathematics up through Calculus, basic software programming, physics and electronic or electrical engineering basics.

Once your prerequisite courses are completed, you start the heart of the curriculum in Computer Engineering. In your upper-level courses, you’ll learn how computer-controlled systems are designed from the bottom up. Microprocessor design, firmware creation and circuit boards are just a few of the topics you’ll study. The creation of a single computer is just the beginning. Advanced courses in Computer Engineering teach the techniques for integrating large numbers of computers into complex networks capable of solving massive computational problems.

There are many delivery methods for studying Computer Engineering. There are over 150 universities that offer an undergraduate program, and most top-tier state and private colleges offer Masters and Ph.D. programs also. You might also pursue a Computer Engineering degree with any of the reputable online colleges.

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Automotive Engineering Degrees

Automotive engineering is a branch of mechanical engineering that concerns the design, development and manufacture of cars, trucks, motorcycles and other motor vehicles. Automotive engineers also design and test the many subsystems or components that comprise a motorized vehicle.

Very few universities offer a bachelor's degree in automotive engineering. Consequently, many prospective automotive engineers earn a bachelor's degree in mechanical engineering from a university that also offers specialized courses in automotive engineering. However, there are plenty of universities offer master's degrees in automotive engineering.

High school students aspiring to become automotive engineers should develop a solid foundation in algebra, geometry, trigonometry and pre-calculus, physics and chemistry. These subjects are central to understanding the core concepts of any engineering discipline. Automotive engineering students need effective oral and written communications skills. Therefore, high school students should strive to do well in language arts classes, such as writing and speech. High school students should take available advanced placement or college classes to help prepare them for university engineering coursework and get a head start on building college credits.

Engineering students should choose a college or university that is recognized by the Accreditation Board for Engineering and Technology (ABET). In evaluating an automotive engineer job applicant, some employers consider the reputation of the engineering school that the undergraduate attended more than any other factor. However, most employers focus more on the undergraduate grades and the amount of his or her hands-on experience. Consequently, any college or university that promotes national design and racing competitions in which the student gains hands-on experience would be a good choice. Students should also look for internships or other opportunities that will force them to apply coursework to real-life situations. Over time, the school will not be as important as the experience and skills the engineering the undergraduate offers.

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Acoustical Engineering School

Acoustical Engineering School

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.

Salary and Useful Career Resources for Acoustical Engineers

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.

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.

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Salary, Career Outlook For Molecular Engineering

Salary, Career Outlook For Molecular Engineering

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.

A Real Example of Molecular Engineering in Action

As it is an emerging field with seemingly unlimited potential, the field of molecular engineering has stirred some controversy regarding its implications ethically, environmentally and socially. At the same time, the science promises to exert its influence in all spheres of human life around the world. In the medical devices industry, a recent case study of Ortho Molecular illuminated the powerful potential of this form of engineering. The firm employs a ProScan metal detection system, rooted in molecular engineering, which was developed by Advanced Detection Systems (ADS). This ensures the quality of all of the products in its manufacturing system. The device memorizes the product sensory impulse, and then recalls it as it travels through the scanner, thereby ensuring the finished product meets all Food and Drug Administration health and safety codes. The ProScan application evaluates the entire device to identify the presence of any metal. If it is detected, a signal occurs compelling a check of the entire batch of deliverables. The system enables quality control staff to quickly identify integrity breaches and remedy them seamlessly. Molecular engineering was critical in developing this acute detection system application. Ortho Molecular purchased several of the ADS systems for its medical device product manufacturing processes because of its sensitivity and efficiency.

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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 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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Industrial Engineering

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 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.

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.

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6  Best On-Demand Engineering Jobs in 2020

When deciding on a career path it is very difficult to know whether your chosen industry will continue growing, become oversaturated or even become completely redundant. It is clear that the trend is towards information technology and automation and this is set to remain the case for the foreseeable future. Traditional fields such as civil and petroleum engineering are still in high demand, but the fastest-growing fields are those in the IT-sphere. This article aims to list some of the best engineering jobs in the future that are most in-demand and show the greatest salary potential for 2020 and beyond.

1. Data Science & Machine Learning

Software engineering has seen continuous growth over the past few years and there are no signs of it stopping. Data science is a branch of software engineering that involves creating meaningful information based on large amounts of data. These large datasets are known as big data and can come from a variety of sources such as e-commerce, medical or financial sectors. This field uses both statistics and software engineering to gather, analyze and present data in such a way as to allow the end user to optimize their specific services. A simple example of this is using the data of which products sell best during a specific time of year to create targeted marketing campaigns.

Machine learning is a subset of data science that is used to make predictions of what might happen in the future based on data of what happened in the past. Machine learning algorithms will make predictions, test whether these predictions are accurate, and then optimise the algorithm to improve the accuracy of the prediction going forward. The more varied the volume of data available, the better the predictions. A Bachelor’s degree is not always necessary to begin a career in data science as there are various short courses that cover the required topics. However, it is important to note that a strong background in both mathematics and coding is necessary.

2. Automation & Robotics Engineer

Robotic systems are already good at performing menial repetitive tasks that don’t require the dexterity and attention to detail provided by a human worker. However, with constant advances in computing, energy storage and materials, robots are beginning to move from single arm welding and assembly robots to complex humanoid machines. A striking example of this is the Boston Dynamics robot. A robotics engineer is involved in every aspect of the design, development, testing and implementation of robotic systems. Robotics engineers are typically either mechanical, electronics or mechatronic engineers. As we move ever-closer to an automated world, the only safe jobs are those within automation itself.

3. Petroleum Engineer

Petroleum engineers typically work on drilling methods, the design of drilling equipment and implementing and monitoring the drilling plan for the extraction of crude oil. Petroleum engineering has been in demand for the past few years and is set to continue growing over the coming decade. Despite the push for electrical vehicles and clean energy, oil is still highly valued as it is used in many different industries. Many petroleum engineers are expected to retire in the coming years, meaning job positions for new engineers will open up. There is, of course, a moral dilemma in getting into the petroleum industry when one considers the growing environmental crisis we are facing, something that should be taken into account when searching for a job.

4. Civil Engineering

Civil engineering was a highly sought-after job in 2018 and that trend continues 2019. Civil engineers build the infrastructure on which the world depends. There are various branches of civil engineering which make it difficult to saturate the market and it is therefore a great field to be in. The main civil engineering fields include: structural engineering, environmental engineering, road/highway engineering and transportation engineering.

5. Electrical Engineering

Electrical engineering is another one of the traditional engineering fields that shows continued demand. Electrical engineering is a very broad field which includes: power engineering, instrumentation engineering, and electronic engineering, among others. The broad range of possible career paths within electrical engineering means that there will probably always be jobs available.

6. Alternative Energy Engineer

Due to the increased pressure being placed on the planet due to climate change there has been an international push towards clean and renewable energy. For example, the demand for solar energy technology has increased dramatically, resulting in decreased panel cost. This is creating a feedback loop that is further pushing up demand. There can be no doubt that alternative clean energy is the future. Despite coal-fired power stations still making up the majority of global energy production, its growth has stagnated while alternative energy has grown. An energy engineer needs to start off with at least a Bachelor’s degree in mechanical or electrical engineering. Thereafter a Master's in energy engineering for the specific desired field can further improve job prospects.

Types of Engineering Careers and Salaries

Types of Engineering Careers and Salaries

A person who works as a mechanical engineer in Italy typically earn around $6520  per month. Salaries range from $3,650  (the lowest) to $10,350 (the highest).

This is the average monthly salary including accommodation, transportation and other benefits. The salaries of the mechanical engineer can differ drastically based on experience, skills, gender or position. Below you will find a detailed analysis based on many different types of engineers and salaries.

Mechanical Engineering Jobs

Career initial payment: $ 63,450

Mid-career payment: $ 1,00,600

The work and salary of a Mechanical Engineer Salary greatly and can cover everything from small assignments to the development of large factories and vehicles. Mechanical engineers are needed in most industries and can be involved in all aspects of the project from research and development to manufacturing, management and production.

Civil Engineering Jobs

Career initial payment: $ 56,600

Mid-career payment: $ 97,900

Civil Engineers are in high demand in 2020. Every large (and small) city needs roads, bridges and transportation facilities, and this is where the role of civil engineer is. Civil engineers build all types of infrastructure and they can also do their part for the environment as well by designing and implementing environmentally friendly projects. Depending on where you have studied, where you decided to work and what projects you took, becoming a civil engineer can be a great career that combines giving back to the community with a decent salary.

Computer Engineering Jobs

Career initial payment: $ 62,600

Mid-career payment: $ 1,12,900

Computer engineering is a relatively new field of engineering. IT professionals are paid generously for their workforce and employers are prepared to pay higher salaries for college graduates. As we embrace the Internet of Things and other advancements in digital technology, computer engineers become increasingly integral to the world in the context of the 4th Industrial Revolution.

 Electrical Power Engineering

Career initial payment: $ 67,600

Mid-career payment: $ 1,21,500

The electric power engineer is responsible for generating electricity and transferring it to various distribution networks. They must then ensure the right delivery to the millions of businesses and homes that need it. In most projects, electrical engineers must coordinate with civil and mechanical engineers, environmental experts, legal representatives, and financial liaison. Even as you read this, you are completely dependent on a steady flow of electricity that is facilitated by skilled people who work in electrical engineering. Without doubt, this is a very important and current industry (without the word intention) to be involved.

Top Paying Engineering Jobs

A person who works as a mechanical engineer in Italy typically earns around $6520  per month. Salaries range from $3,650  (the lowest) to $10,350 (the highest).

This is the average monthly salary including accommodation, transportation and other benefits. The salaries of the mechanical engineer can differ drastically based on experience, skills, gender or position. Below you will find a detailed analysis based on many different criteria.

Mechanical Engineering Jobs

Career initial payment: $ 63,450

Mid-career payment: $ 1,00,600

The work and salary of a Mechanical Engineer Salary greatly and can cover everything from small assignments to the development of large factories and vehicles. Mechanical engineers are needed in most industries and can be involved in all aspects of the project from research and development to manufacturing, management and production.

Civil Engineering Jobs

Career initial payment: $ 56,600

Mid-career payment: $ 97,900

Civil Engineers are in high demand in 2020. Every large (and small) city needs roads, bridges and transportation facilities, and this is where the role of civil engineer is. Civil engineers build all types of infrastructure and they can also do their part for the environment as well by designing and implementing environmentally friendly projects. Depending on where you have studied, where you decided to work and what projects you took, becoming a civil engineer can be a great career that combines giving back to the community with a decent salary.

Computer Engineering Jobs

Career initial payment: $ 62,600

Mid-career payment: $ 1,12,900

Computer engineering is a relatively new field of engineering. IT professionals are paid generously for their workforce and employers are prepared to pay higher salaries for college graduates. As we embrace the Internet of Things and other advancements in digital technology, computer engineers become increasingly integral to the world in the context of the 4th Industrial Revolution.

 Electrical Power Engineering

Career initial payment: $ 67,600

Mid-career payment: $ 1,21,500

The electric power engineer is responsible for generating electricity and transferring it to various distribution networks. They must then ensure the right delivery to the millions of businesses and homes that need it. In most projects, electrical engineers must coordinate with civil and mechanical engineers, environmental experts, legal representatives, and financial liaison. Even as you read this, you are completely dependent on a steady flow of electricity that is facilitated by skilled people who work in electrical engineering. Without doubt, this is a very important and current industry (without the word intention) to be involved.