Audio Engineering Career and Work Nature

Audio engineering is an intricate blend of science and creativity. It involves technical aspects of equipment set-up and operation, but also requires a creative side to enhance and blend the sounds to produce the desired effects.

Often called sound engineers, these professionals are highly sought after in all areas of the entertainment industry. Musicians depend on audio engineers in the studio and in live performances to polish their sound and to keep it consistent throughout each recording or performance. Audio engineers mix the music and enhance the balance to provide the best final product. In television and movies, audio engineers are responsible for all of the sound effects, music, and sound levels heard in the video productions. Even radio depends on sound engineers to keep their stations operating properly. There are other careers available to audio engineers, but the entertainment industry provides the most opportunity.

For those interested in pursuing a career in the audio engineering field, there are three different levels of degrees available. An Associate in Applied Science will teach the basics of working in the industry. The Bachelor of Science degree goes more in depth in both the music and technical aspects of the business. The Master's degree programs focus on very specific aspects of audio engineering.

Both the Associate and Bachelor degrees require a minimum of a high school diploma, a GED certificate, or the equivalent. Different schools, particularly those offering Bachelor programs, may also have specific requirements for placement tests or minimum scores for standard college entrance tests, like the SAT or ACT. In addition to the school standards, strong math skills, a good grasp of music, and an understanding of technology are all beneficial skills in pursuing this course of study.

Read More : information technology engineering 

Job Description of an Audio Visual Technician

Job Description

The main duty of an audio visual technician job description is to coordinate, manage, and arrange audio and video services for clients. This can include setting up and conducting film or video shoots, audio recording, or transcoding of video production materials. Depending on the size of the AV department, the lead AV technician will also be responsible for directing the duties of additional AV technicians assigned to him. The AV lead technician is also responsible for the upkeep of current AV equipment as well as the purchase of new equipment.

Education Required

The main minimal educational requirement for most AV Lead Technician jobs is a high school diploma or GED. Some positions may require a bachelor's or associate's degree in a related subject such as Radio/TV/Film, Communications or Engineering. Some organizations offer certification for AV studies, but these are not necessary to enter the industry. A certain number of years of on-the-job training may also substitute for formal education.

Skills Needed

Lead AV technicians need to be highly organized. Depending on the size of their crew, they must also have the ability to manage other employees. In smaller companies, the lead AV technician may be performing a number of different roles, including audio recording, video recording and lighting. The lead technician may also be responsible for editing audio and video, so should have experience with NLE (Non Linear Editing) software.

Read More: enterprise architect salary

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.

Read More: computer network engineer

Thermal Engineering Career

Professionals in the field of thermal engineering strive to develop more efficient means for transferring energy into more practical means, drawing on their expertise in heat transfer. Within an industrial context, these engineers work on solutions for fuels, exploring forms of chemical, electrical and mechanical energy. These professionals find specialization in the fields of high technology, solar power, oil and gas, power companies, as well as temperature control systems. Transforming power grids to create more affordable electricity has become one of the most popular fields utilizing the expertise of thermal engineers.

If you want to know more about becoming a thermal engineer, contact the schools listed here to learn more. It’s important to talk to as many schools as you can to determine the best way forward.

Thermal Engineering Schools

Thermal engineers dedicate their efforts to refining electronics systems and safety applications. They collaborate extensively with groups of hardware and software experts at all stages of the product cycle from initial design through the manufacturing and installation of products and systems. In this capacity, they may develop models for industrial assets rooted in computer projects for optimizing source materials and functionality.

If you want to learn more about entering this area of engineering, contact the schools in our directory to find out more!

Read More: network architecture job description

Nuclear Engineering Degrees

Nuclear engineering is the most integrated of the engineering disciplines. The many components of nuclear systems (medical imaging, nuclear fission reactors, ultrasensitive contraband detectors, and fusion reactors) must all be understood as well as how they relate to one another. Nuclear engineers must be experts in their primary field, as well as knowledgeable in other fields such as electronics, thermodynamics, physics, and materials science. The fundamentals of one science are often the same tools used in solving problems in the other disciplines.

An undergraduate degree in nuclear science and engineering develops the fundamentals of nuclear processes—their production, interactions, and radiation measurements. These studies bring the student all the way to the design phase of nuclear-based systems, stressing social, health, and energy and security impacts.

Studies also incorporate computer methods, thermal-fluid engineering, and electronics—critical tools for a nuclear engineering career.

The Bachelor of Science degree in Nuclear Science and Engineering prepares students for careers in the application and engineering of low-energy nuclear physics. This includes design, analysis, and operation of radiation systems and their applications, such as fission reactors and accelerators, and biomedical uses. Students are also prepared for graduate study in a wide range of engineering and physical sciences.

A five-year program offers an opportunity to earn a Bachelor of Science and a Master of Science in Nuclear Science and Engineering simultaneously. Beyond those studies, students can pursue a Ph.D. and work in research or as university professors.

Read More: network architect salary

Mining and Geological Engineering Career Outlook

As with any dynamic and engaging field of study, the geological, mineral and mining industries and sciences, the training and education continues well after one has earned their degree. With numerous trade associations, professional networks and academic research societies, such as the American Institute of Professional Geology (AIPG,) American Rock Mechanics Association (ARMA,) and Association of Environmental and Engineering Geologists (AEG,) the field of geological and mine engineering is one of a continually evolving nature, with regular conferences and training programs designed to keep geological professionals on the cutting edge of their chosen pursuits. Combining age old techniques in respect to surveying, exploration and extraction, new technologies continue to emerge in the field, bringing new and exciting methods of research and exploratory prospecting into the hands of professionals and students every year. And as these new technologies and discoveries continue to change the professional landscape for those entering the engineering fields of geology or mining, the increasing demands for raw and precious materials by industry and the public at large have led to an increased demand for well educated, qualified professionals to enter the fields.

According to the US Bureau of Labor Statistics (BLS,) “employment of mining and geological engineers is projected to grow 12 percent from 2012 to 2022,” which according to their data puts it on par with most other occupations in terms of projected growth. With the average salary for mine and geological engineering professionals being reported at $86,870 annually (or $41.76 hourly) as of 2013, the range between the lowest and highest paid percentages of the industrial professionals was between approximately $49,000 and $140,000 depending upon industrial focus, employer, position and experience.

A recent 2013 BLS study found that in regards to median salary, differences in respect to specific location also existed. In the metropolitan area of Huston Texas, the annual mean average for geological and mining engineers, including health and safety professionals, was $147,880, with the same occupations earning between $118,450 and $121,350 in the Bakersfield and Oakland California markets, respectively. These salaries, when compared to the $84,140 mean of the St. Louis metropolitan market and the $69,970 measured in the Colorado Springs market, show that sometimes drastic disparities exist in respect to salary, dependent upon location and industrial focus.

Read More: technology architects

Marine Engineering Degrees

During the course of obtaining a marine engineering degree, you will learn how to apply the principles of engineering to systems that help seafaring vessels, docks and other aquatic entities function. This may include designing and evaluating propulsion and power supply systems to assist communication and navigational devices, engines, foul-weather gear and many other types of marine tools. Becoming a marine engineer takes time, patience, dedication, and commitment to your studies.

What types of Marine Engineering degrees exist?

You can study for a bachelors, masters or PhD in marine engineering, which will prepare you to design and evaluate sea-faring vessels and other equipment while on land. Alternatively, you can enroll in the United States Merchant Marines Academy and learn how to operate and care for a ship’s equipment with one of three degrees: Marine Engineering, Marine Engineering Systems, and Marine Engineering.

What prerequisites are required for a Bachelor of Science in Marine Engineering?

While every engineering school has slightly different requirements, in general, undergraduate applicants should have completed high school with excellent advanced science and math course grades. High ACT or SAT test scores are also helpful when applying for a program in marine engineering.

Marine Engineering Schools

A Masters of Marine Engineering gives applicants a chance to explore a specific part of marine engineering in depth. Masters students might study:

• Ship Auxiliary Systems Design
• Marine Mining and Dredging
• Applied Marine Thermodynamics
• Hydrodynamics
• Numerical Simulation Techniques

Earning a Marine Engineering degree requires taking a large amount of math and science courses. Basic courses include:

• Engineering Analysis Principles
• Naval Architecture
• Wave Mechanics
• Fluid Mechanics
• Marine Structures
• Propulsion Systems
• Ship Dynamics
• Moored and Diving Systems
• Coastal and Offshore Structures

Read More: wan definition computer

Chemical Engineering Degree & Career Outlook

Chemical Engineering Degree & Career Outlook

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

Aside from the standard 4-year-degree courses, there are degrees with emphasis on environmental, biochemical, or materials engineering. Environmental studies prepare engineers to work on waste minimization, pollution control, and waste management. Biochemical studies prepare students to enter the biochemical industry, and support a strong pre-med program.

Materials engineering incorporates chemistry and applied physics, with interest in the atomic and molecular levels of materials. Emphasizing these areas requires a slightly heavier course load. On graduating, students are traditional chemical engineers as well as specialists.

Beyond receiving a B.S. in chemical engineering, students can pursue other graduate degrees. The master's degree (M.Sc.) for chemical engineering is the next level, and generally requires 5 quarters of study. Typically, a university will allow no more than 3 years for the completion of this degree, and a grade point average of 3.00 is required.

Doctor of philosophy (PhD) studies prepare graduates to take active parts in the ever-changing field of chemical engineering. A PhD can access all levels of industrial and research organizations such as national laboratories or university teaching.

There are too many lab and field study requirements to make online study suitable for a conventional B.S. in chemical engineering, but it is possible to earn a master of science degree in chemical engineering (MSCHE) online, through some sources. These opportunities are designed for outstanding students who already have engineering degrees. Qualifications and prerequisites are stringent.

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

Read More: definition of computer networking

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's grades and 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.

Read More: define computer network

Data Communication & Computer Network

Data communications refers to the transmission of this digital data between two or more computers and a computer network or data network is a telecommunications network that allows computers to exchange data. The physical connection between networked computing devices is established using either cable media or wireless media. The best-known computer network is the Internet.

This tutorial should teach you basics of Data Communication and Computer Network (DCN) and will also take you through various advance concepts related to Data Communication and Computer Network.

Network Basic Understanding

A system of interconnected computers and computerized peripherals such as printers is called a computer network. This interconnection among computers facilitates information sharing among them. Computers may connect to each other by either wired or wireless media.

Network Engineering

Networking engineering is a complicated task, which involves software, firmware, chip level engineering, hardware, and electric pulses. To ease network engineering, the whole networking concept is divided into multiple layers. Each layer is involved in some particular task and is independent of all other layers. But as a whole, almost all networking tasks depend on all of these layers. Layers share data between them and they depend on each other only to take input and send output.

Read More: computer network engineering

Computer Network Architect Job Responsibilities

Computer Network Architect Job Responsibilities

The job responsibilities section of a computer network architect job description is where employers inform potential applicants about an advertised position. You might start by describing the tasks that an employee in this role will perform on a daily basis and suggest how he or she would help the company achieve broader goals. A solid description of responsibilities can encourage qualified jobseekers to apply for this position and weed out unqualified applicants.

These responsibilities will likely be the most substantial part of a computer network architect job description, but you may receive better responses to a job ad if you keep these requirements accessible. Organize the tasks and objectives related to this position into a list of no more than 6-8 items formatted with bullet points. Start each line with an action verb to emphasize the agency of the employee who will fill this role.

The following are examples of computer network architect job responsibilities:

• Build and maintain secure business networks optimized for performance
• Configure software and hardware on systems and networks to support the specific needs of a company
• Design and implement appropriate information storage models
• Increase network scale and functionality to keep pace with growth
• Organize training sessions for information technology department and other employees

Computer Network Architect Job Specifications

Increase the likelihood of receiving competitive applications for an open position by carefully crafting the list of required skills in your computer network architect job description. It is a good idea to set forth the minimum requirements and then provide a few preferred qualifications that could set an exceptional applicant apart.

Read More: how does a network work

Computer Engineering Degrees

Most people own or have ready access to a personal computer. These marvels of modern technology have revolutionized everything from the way we get our news to how we communicate with friends and relatives to how we entertain ourselves. However, the traditional PC or laptop is only one type of computer. Virtually every modern machine and process is computer-controlled. Some computers are tiny, as in the smallest cell phones and MP3 players.

Other computers are actually massive networks of thinking machines, working on terabytes of data and cranking out billions of calculations per second. The common factor making these machines possible is the Computer Engineer. Computer Engineering differs from Software Engineering and Computer Science in that it focuses on the actual hardware that’s responsible for performing the work. Software is the set of instructions used by a computer to get work done.

Without Computer Engineers designing the hardware platform it runs on, software would be so many useless bits of data. While they need to know the principles of software operation, Computer Engineers are responsible for designing the components of a computing system. Whether that computer is in the Stealth Bomber or under your car’s hood, all computers have similar components and functions, varying mostly in size, shape and application.

Computer Engineers design everything from the Central Processing Unit to primary and secondary memory storage to input and output methods. Even if they are using off-the-shelf components, they’re responsible for making sure the integration works flawlessly.

Read More: network architecture

Civil Engineering Degrees

"Civil engineering is the oldest and most diverse branch of engineering. In its broadest sense, the civil engineer adapts the physical features of the earth to the needs of society. According to the University of Florida, approximately one out of four engineers is engaged in civil engineering."

Civil engineers design, construct, maintain, and operate infrastructures, while simultaneously safeguarding public and environmental health and upgrading neglected structures and systems. Civil engineering reaches from the natural environment to the constructed environment, focusing on interactions between the two, with an emphasis on sustainability.

Combining atmospheric and energy sciences, civil-engineers study climate, air pollution, and weather, addressing problems which might be solved through renewable energy systems. They examine the availability of renewable resources (wind, hydropower and solar), and best practices for their combinations. These kinds of research brought about the first data based wind map and examine the effects of alternative fuels on air pollution..

Universities specializing in engineering fields offer master of science, master of engineering, and doctor of philosophy degrees in civil engineering as well as other branches of engineering technology. A well-rounded civil engineering program prepares students for careers in civil engineering or for advanced study in the field.

More About: audio video certifications

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.

Read More: audio visual job description

The IoT Applications

Internet of things Applications

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.

The connectivity, networking and communication protocols used with these web-enabled devices largely depend on the specific IoT applications deployed.

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.

Read More: internet of things applications

Internet of Things Applications

Internet of Things Applications

The Internet of Things (iot) 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.


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

Read More: what is an iot device

IoT 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.

The ability to monitor operations surrounding infrastructure is also a factor that IoT can help with. Sensors, for example, could be used to monitor events or changes within structural buildings, bridges and other infrastructure. This brings benefits with it, such as cost saving, saved time, quality-of-life workflow changes and paperless workflow.

A home automation business can utilize IoT to monitor and manipulate mechanical and electrical systems in a building. On a broader scale, smart cities can help citizens reduce waste and energy consumption.

Read More: what is the iot devices