Studies & Degrees in Technology

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3 - D Design 3D Studio MAX Advanced Construction Advanced Electronic Systems Aeronautical Management Technology Aeronautical Science Aerospace Electronics Aerospace Studies Agricultural Technology Agroforestry and Genetics Science and Technology Air Force (ROTC) Applied Technology Architectural Drafting Architectural Technology Automatics Automotive Technology Biotechnology Brewing and Beverage Technology Building Technology Chemical Technology Civil Engineering Technology Computational Mechanics Computer Electronics Computer Engineering Technology Computer Repair Technology Construction Management Construction Management Engineering Technology Creating EBooks and Digital Magazines Database Technology Dental Lab Technology Diesel Technology Dietetic Technology Digital Photography Digital Technology Dubbing, Translation and Subtitle Earth & Energy Technology Electrical Engineering Technology Electrical Technology Electrochemistry Electrodynamics Electronic Engineering Technology Electronic Technology Engineering Graphics Technology Engineering Technology Geomatics Technology Global Energy Systems Graphic Information Technology Heating Refrigeration and Air Conditioning Technology Industrial and Agrifood Biotechnology Industrial Automation Industrial Electronics Industrial Maintenance Industrial Technology Information & Communication Technology Information Technology Systems Instrumentation Technology Intelligent Systems Internet Technology Lab Technology Language Technology Laser and Fibre Optics Laser Technology Machine Technology Maintenance Technology Manufacturing Engineering Technology Maritime Transportation Mechanical Drafting Mechanical Engineering Technology Mechatronics Media Technology Medical Laboratory Technology Micro Systems Technology Microcomputer Systems Technology Microelectronics Military Science Minerallurgy Nanoelectronics Nanotechnology Naval Machinery Nuclear Medicine Technology Occupational Technology Office Systems Technology Oil and Gas Technology Operations Management Technology Optical physics Petroleum Technology Physical Electronics Plastics Engineering Technology Plastics Technology Polymer Technology Powerplant Tecnology Printing Technology Product Design Radioastronomy Sensor Technology Sound and Image Spatial Information Technology Steel metallurgy Surveying Technology Technical Report Writing Technical Writing Technology Telecom & Digital Business Telecommunications Technology Visual Communication Technology Visual Effects Web Technology

Study 3 - D Design

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Study 3D Studio MAX

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SpainThe United States

Study Advanced Construction

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GermanyThe United States

Study Advanced Electronic Systems

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Study Aeronautical Management Technology

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Aeronautical management technology – also known as air transportation management – is directly related to the technological aspects of air transportation. It is focused on the overall supervision and coordination of air traffic, and teaches individuals to monitor, supervise, develop and implement aeronautical systems and policies in management positions.
It is rare to study aeronautical management technology anywhere aside from an accredited higher education institution. The most popular place to study aeronautical management technology is at technical schools that offer aviation programs, though some universities and colleges also provide these courses. Sometimes, government agencies will train individuals in this study through military programs. Airports and airlines may offer related workshops, but these are typically only for current employees, and do not cover the entirety of an aeronautical management technology study.
This field of study almost always includes some piloting school or piloting instruction, though it will be far more basic than a true pilot-training program. As a result, students will need to pass certain aviation tests, whether during or after the course.
Skills, Qualifications, and Prerequisites for Studies in Aeronautical Management Technology
To learn aeronautical management technology, students must attend a higher education institution. Typically, this means completing secondary school and passing an aptitude test or entrance exam (though some programs will wave this requirement.) Some programs may also only be available at a master’s level, which requires a four-year bachelor degree beforehand.
Applicants to a course in aeronautical management technology should already have a preference for the maths and sciences, as this course requires focused study in advanced technological systems and mathematics education. This also means that applicants should have a vested interest in technology. Essentially, a love of planes and flight is a great starting passion.
Other qualities that are ideal in aeronautical management technology expert include:
  • Effective communication and interpersonal skills.
  • Quick thinking and quick acting.
  • Organizational skills.
  • Willingness to stay up-to-date on modern technology and research.
Skills and Qualifications Acquired from Studies in Aeronautical Management Technology
The purpose of aeronautical management technology courses is to give students a broad range of knowledge applicable to many air traffic situations. As such, participants in this program will gain skills in:
  • Some accounting, economics and business education.
  • Advanced mathematics courses.
  • Laws, policies and regulations relating to air traffic.
  • Safety regulations regarding air traffic.
  • Aircraft operations and maintenance.
  • Airport systems and management.
  • Navigational and monitoring aeronautical systems.
  • Management techniques, policies and strategies regarding air traffic.
  • Air and space structures, vehicles, designs and systems.
  • Development of aeronautical systems and material types.
Students may also acquire flight, piloting and advanced navigation skills, as this course of study may require some professional flight school training.
Careers for Studies in Aeronautical Management Technology
Those students that successfully complete a course of study in aeronautical management technology can expect to find top-level jobs in the air transportation industry. Government agencies regarding aviation, transportation and military technology often employ these experts in research, development and management positions. Airports widely employ these graduates to help manage airport traffic.
These individuals also find work as aviation consultants and managers for individual airlines or airports. Depending on other study pursuits, graduates can also pursue careers as pilots in government, commercial or private sectors, though this less common due to the management focus of the course.
Aeronautical management technology – also known as air transportation management – is directly related to the technological aspects of air transportation. It is focused on the overall supervision and coordination of air traffic, and teaches individuals to monitor, supervise, develop and implement aeronautical systems and policies in management positions.
It is rare to study aeronautical management technology anywhere aside from an accredited higher education institution. The most popular place to study aeronautical management technology is at technical schools that offer aviation programs, though some universities and colleges also provide these courses. Sometimes, government agencies will train individuals in this study through military programs. Airports and airlines may offer related workshops, but these are typically only for current employees, and do not cover the entirety of an aeronautical management technology study.
This field of study almost always includes some piloting school or piloting instruction, though it will be far more basic than a true pilot-training program. As a result, students will need to pass certain aviation tests, whether during or after the course.
Skills, Qualifications, and Prerequisites for Studies in Aeronautical Management Technology
To learn aeronautical management technology, students must attend a higher education institution. Typically, this means completing secondary school and passing an aptitude test or entrance exam (though some programs will wave this requirement.) Some programs may also only be available at a master’s level, which requires a four-year bachelor degree beforehand.
Applicants to a course in aeronautical management technology should already have a preference for the maths and sciences, as this course requires focused study in advanced technological systems and mathematics education. This also means that applicants should have a vested interest in technology. Essentially, a love of planes and flight is a great starting passion.
Other qualities that are ideal in aeronautical management technology expert include:
  • Effective communication and interpersonal skills.
  • Quick thinking and quick acting.
  • Organizational skills.
  • Willingness to stay up-to-date on modern technology and research.
Skills and Qualifications Acquired from Studies in Aeronautical Management Technology
The purpose of aeronautical management technology courses is to give students a broad range of knowledge applicable to many air traffic situations. As such, participants in this program will gain skills in:
  • Some accounting, economics and business education.
  • Advanced mathematics courses.
  • Laws, policies and regulations relating to air traffic.
  • Safety regulations regarding air traffic.
  • Aircraft operations and maintenance.
  • Airport systems and management.
  • Navigational and monitoring aeronautical systems.
  • Management techniques, policies and strategies regarding air traffic.
  • Air and space structures, vehicles, designs and systems.
  • Development of aeronautical systems and material types.
Students may also acquire flight, piloting and advanced navigation skills, as this course of study may require some professional flight school training.
Careers for Studies in Aeronautical Management Technology
Those students that successfully complete a course of study in aeronautical management technology can expect to find top-level jobs in the air transportation industry. Government agencies regarding aviation, transportation and military technology often employ these experts in research, development and management positions. Airports widely employ these graduates to help manage airport traffic.
These individuals also find work as aviation consultants and managers for individual airlines or airports. Depending on other study pursuits, graduates can also pursue careers as pilots in government, commercial or private sectors, though this less common due to the management focus of the course.

Study Aeronautical Science

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Study Aerospace Electronics

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The United States

Study Aerospace Studies

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The United KingdomThe United States

Study Agricultural Technology

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SpainThe United States

Study Agroforestry and Genetics Science and Technology

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SpainThe United States

Study Air Force (ROTC)

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The United States

The Air Force Reserve Officer Training Corps, better known as Air Force ROTC, is an education and training program now offered at most United States colleges and universities.  The program is designed to provide men and women with the unique opportunity to become officers in the U.S. Air Force while completing their bachelor’s or master’s degree in their chosen field.  The program’s main goal is to prepare students for positions of responsibility and increasing importance within the Air Force, while simultaneously enhancing their employment prospects once their service in the corps has been concluded.  Air Force ROTC offers numerous programs and scholarships to eligible students, which can ultimately lead to an academic degree and a commission in the Air Force as a second lieutenant.
Air Force ROTC Program:  Program Description
Perhaps the most attractive feature of the Air Force ROTC program is the number of functions it performs, serving as both a campus club and an academic and leadership academy all rolled into one.  The program is divided into two main groups of students called cadets.  In the initial two years of the program, cadets will be members of the General Military Course or GMC, while those in the final two years of the program become members of the Professional Officer Corp or POC.  While most cadets begin the program as university freshmen, this is not mandatory, as there are many programs designed for upperclassmen and graduate students as well.
The Air Force ROTC program addresses three main areas:  academic instruction, leadership and physical fitness.  On the academic and leadership side, cadets must attend a one-hour class each week during the first two years, in which they’ll learn about the history of the Air Force and gain information with regard to being an officer.  During the final two years of the program, a 3-hour weekly class is required, with instruction and training focused on the skills necessary to be an effective leader and supervisor and to learn the laws and policies that govern how Air Force decisions are made.  These weekly sessions, which most universities count toward elective class requirements, are in addition to the coursework students will take while earning their bachelor or master’s degree.
All cadets are also required to participate in physical training or PT.  Training sessions are typically held two to three times a week, depending on the institution, for 60 to 90 minutes in duration.  The activities cadets will be asked to perform include stretching exercises, calisthenics and running, along with participation in group activities and sport teams.  Most PT instructors tend to vary the type of exercise and the duration each week to ensure each cadet is receiving the optimum benefit from the sessions.
Following the initial two years of the Air Force ROTC program, students who opt to continue and pursue their commission must attend field training—a four to five week course in which they’ll hone their leadership skills and gain firsthand information about serving as an active duty officer in the Air Force.
Air Force ROTC is the perfect way to gain experience in your chosen field—experience that will translate to greater career prospects once your service has been concluded.  Some of the career choices for which the Air Force ROTC program helps prepare students include space operations, engineering, medicine, nursing, and human resource positions, just to name a few, and there are even programs through which students can train to be Air Force, and later commercial pilots.  With available scholarships, a wide range of academic opportunities and valuable field training, not only does the Air Force ROTC program train future leaders to serve as effective officers, it affords them the opportunity to earn an undergraduate and or graduate degree, one that will benefit them both in service life and as civilians.

Study Applied Technology

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Study Architectural Drafting

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Study Architectural Technology

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Home to the ultimate Goddess of Greece, the Parthenon also lodges the greatness of ancient architecture. No wonder, it has been regarded as the supreme embodiment of architectural sites all over the globe. Thanks to Iktinos and Kallikrates who happen to be the artists behind the finest architecture alongside the great sculptor Phidias. Among others, its legendary components consist of stylobate’s curvature, naos walls’ taper, and finally the columns’ entasis. Apart from these, another significant brilliance was the optical refinements integrated on its construction. Undoubtedly, this ancient building has been a classical inspiration to modern architecture.

In the ancient times, the concepts of architecture evolve on three main facets such as durability, utility, and beauty. These principles were suggested by the infamous architect Vitruvius in the oldest surviving architectural literature known as “De Architectura”. The onset of the 19th century though introduced subjective views of architectural appreciation in which satisfaction of the impression of men is regarded as the ends of any building masterpiece. Consequently, modern architecture paved the way for the integration of earlier theories. As a result, it gave rise to the revolutionary idea that form follows function. This time, function is but not limited to utility but also encompasses aesthetic, cultural, and psychological aspects.

Architectural faculties remain as such unless applied in actual building construction hence the advent of architectural technology. Basically, this particular branch of architecture deals with practical application thereby providing specialization in building design services and solutions. In turn, it is meant to utilize architectural science in carrying out construction efforts upon the aid of technology. This notion best explains the technological facilities and equipment employed in the building process not to mention the tools and gadgets used by members of the workforce. As a profession, architectural technology is duly recognized and regulated in the West. For instance, Ontario Association of Architects grants license to competent technologists to join the Association of Architectural Applied Architectural Sciences authorized to design small buildings in Canada.

Attributed to the relevance of Architectural Technology, the academe provided for many different academic programs. More often than not, this specific field of study only takes two years of schooling such as the Associate of Applied Science in Architectural Technology. Associate degree holders may also enrol in relevant Bachelor’s programs for further specializations such as Architectural Technology and Construction Management, Architectural Building Engineering, and Architectural Science. Graduate schools may also offer pertinent programs consist of Master of Science in Building Technology, Master in Building Design and Architecture, and Doctor of Philosophy in Architecture.

Employment opportunities await Architectural Technology specialists. The continuous expansion of building and construction industry comprises an attractive academic niche led by premier companies in the likes of Balfour Beatty Infrastructure, Bechtel Corporation, and VINCI Construction. In the same way, national governments may provide jobs on its many different agencies under the Construction and Infrastructure Department. Research institutes can also offer professional posts such as Architectural Technology Research Centre based in Florida. Not just that, educational institutions likewise recruit degree holders for teaching professions in the academe.

Job positions for Architectural Technology:


Before man can create, he must first know how to imagine. Before man can design, he must first learn how to draw. Before man can make a building stand, he must first understand the laws of physics. Before architects become architects, they start off as draftsmen. Draftsmen or Architectural Drafters are people who work under architects. He or she would be creating blueprints and structural plans for the designs of the architect, putting a real life design of an infrastructure on paper. Architectural draftsmen are able to draw freehand or with Computer Aided Design and Drafting (CADD).

Draftsmen should have developed impressive skills in the fields of math, namely geometry and trigonometry, and science, specifically physics. They must also know how to handle computer aided design since modern architectural draftsmen are now made to use this method to make their jobs faster and easier. Of course, these individuals must be good in the fields of art and design. But they should also have a basic knowledge of manual technical drawing or drafting in case they are not tasked to use CADD.

Some universities offer two or three-year courses on architectural draftsmanship and many aspiring draftsmen take these courses to be able to land a job in their desired profession. Others take full-blown four to five-year architectural courses. Architects usually start off working under architects as draftsmen before becoming architects themselves. This is usually part of on-the-job trainings or internships. Draftsmanship is usually the training ground for many aspiring architects because it is in this profession that they learn patience and discipline when working with numerous drawing projects. In some countries, undergraduates of architectural courses work part-time as draftsmen to improve their skills, practicing to be the top caliber architect in the field.

A few famous names in the profession would have to be William Walcot and Hugh Ferris. William Walcot, a British architect in Russia, worked as a Draftsman, drawing other people’s designs. He was famous in the 1920s and 30s in his career as an architectural draftsman. Hugh Ferris was an American architect and delineator. He, too, drew for other people, creating perspectives for other architects’ designs before developing his own style. He may not have designed awe-worthy or extraordinary buildings but a colleague once said that “he influenced my generation of architects” after Ferriss died.

Indeed, draftsmanship is the basic foundation and stepping stone of any aspiring architects. It is a tedious profession, with days filled with nonstop drawing and model-making of designs not concocted by your own mind. But it is through this that one is able to learn to develop new skills and be introduced to styles that can be used as inspiration for personal design preferences in the future. Draftsmanship molds the builders and designers of the future. Draftsmanship is the profession of the hardworking and the persevering, the patient and the creative, the ambitious and the proud.

Study Automatics

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Study Automotive Technology

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On the topic which is the greatest invention of all time, a lot of people would argue that it is perhaps the automobile that has made the greatest impact in human lives. Some would argue it is the computer and some would argue it is the gun but perhaps James Bond would claim that his car has a computer and guns in it. Kidding aside, whatever it is, the automobile is an essential part of human lives and that humans cannot do without them.

The invention of cars brought about the automotive industry. The automotive industry is among those industries that are technology driven and competition is among the fiercest. When one car maker makes an innovation and got good market response, chances are all the other automakers would follow suit. Just to illustrate, when the airbags were introduced as a safety feature by Ford and Chrysler in the mid 80’s, all other car makers also fitted their cars with airbags and now it became a standard safety feature. Anticipating that the car market is responsive to technological improvements, it is certain that the technology adopted would be those that can be appreciated by the motoring public. At present, Automotive Technology is focused heavily in developing environmental friendly cars. Car makers are currently rushing to produce the first car that would not depend on traditional fuels and is not expensive to produce. Right now, prototypes have been unveiled but the question still remains if these prototypes can be massed produced at a cost that could translate to profits in the long run. Among the prototypes unveiled recently are cars running on electric power. Electric cars however cannot still match the versatility of gasoline and diesel powered cars when it comes to speed and acceleration which the market are looking for in a car. As, still, they are business outfits, technology can only go so far as long as profits are achievable.

Automotive Technology is really a vast area of study as airbags technology alone could very well be a field on its own. However, the term Automotive Technology, more or less, should refer to common areas of innovations like the engine, traction, aerodynamics of the car, safety features, brake system, transmission, fuel economy and even the paints used can be an area of innovation.

In the movies, Automotive Technology has contributed to the overall sales of a movie. People are always enthralled to see what trick James Bond’s car will do every time there’s a new James Bond flick. When the sleekness of the new Batmobile was shown on the movie trailers of “Batman” starring Michael Keaton some years back, fans could not help but fall in line on movie premiers. Another notable car is the one used in “Back to the Future” where the car runs on refuse. Although, cars in the silver screen were thought out from the imagination of writers, it cannot be helped noticing that the technology movies wants us to believe then are actually coming to pass. Tracking systems seen from James Bond movies, where he follows his enemies to their lair is perhaps the only technology applicable to everyday driving and is currently actually in use. Cars with ejector seats, retractable guns and jet-like propulsion were all seen first from movies but suffice to say it’s pointless to have these cars for normal driving.

Automotive Technology is still a rough industry as room for innovation is enormous. Those who want to get in into Automotive Technology can never have a better timing than now as courses specializing in this field are now available at leading universities.

Job positions for Automotive Technology:

F1 Technical Director

If there is one application of Automotive Technology, that would have to be in the formula one racing, the premier auto racing league in the planet. Normally, an F1 team would be composed of a team manager, the drivers, the technical support staff and the pit crew. However, the personnel normally seen on TV are usually just the race day crew which would number to around 40 to 60 including the drivers and manager.
What people don’t usually know is that there are automotive engineers working behind the scenes to improve the performance of the car come the next race day or the next season. The big budgeted teams like Renault-F1 employ around 260 total personnel. Majority of the personnel of an F1 team like Renault-F1 would likely be under the development team and would be reporting under the Technical Director since the pit crew would number to only just about 40.

The Technical Director of a formula one team would be in-charge of all aspects of the car that has anything to do with performance and integrity of the cars. The appearance of an F1 car would be credited as per to the advise of a Technical Director. How much the car should weigh, the power output the engines should rev up, the protrusions (spoilers, side skirts, front and rear wings) and everything else about the car except the sponsor logos and the paint. Reviewing of technological developments is among the duties of a Technical Director. Like in the ongoing 2009 season, the technology of KERS (kinetic energy recovery system) is being reviewed if indeed they are added value to a car’s performance. Currently, not all teams are using KERS since some drivers are winning races even without KERS installed on them. During race day, the Technical Director would be the man to ask questions to if the drivers has special concerns like, for example, 3rd gear is not working and the driver is just 5 laps away from finishing the race, the Technical Director would give advice if the car can possibly finish the race and still earn points or if it is better to let the car retire for the day.

Needless to say how important Technical Directors are especially now that even small details matter. This season, surprisingly, the McLarens and Ferraris, who are perennial favorites, are among the bottom dwellers whereas last year they were battling tooth and nail for the coveted championship title because Team Brawn GP and Team Red Bull made significant changes on their diffusers and are now leading in the race standings. After the first set of races proving that the diffusers are the ones making wonders for the current top teams, it did not take long before other teams copied or adjusted their diffuser settings and somehow are now keeping at pace with the current leaders.

To become a Technical Director for an F1 team, it is for sure a difficult path as there are only a number of F1 teams around. However, those passionate about cars and technology can start realizing their dreams of being an F1 Technical Director by first enrolling in courses related to it like automotive technology or mechanical engineering. As they say, a journey starts with a single step

Study Biotechnology

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Biotechnology is simply a set of techniques by which human beings modify living things or products for specific use or uses or to serve a new end. The Britannica Encyclopedia says it is the use of biology to solve problems and make useful products as well. The American Heritage Dictionary sees it as the use of microorganisms or biological substances in order to perform specific industrial or manufacturing processes. A United Nations Convention on Biological Diversity has put it as the application of scientific and technical advances in life science to development commercial products. Brewing, which is a process in which yeasts convert simple sugar to alcohol, was an early application of biotechnology, while its earlier forms included the selective breeding of plants and animals to improve their value if used as food, and the use of yeast in the making of bread, beer or wine. In agriculture, increases in crop yields appear to be the most conspicuous application of biotechnology in modern times.

Experts say that coupled with a greater flexibility in certain environments where the crop grows, less use of chemical pesticides and the improved nutritional content of the agricultural products, the increased crop yield will make agricultural biotechnology, otherwise referred to as genetic engineering, as the future of food supply in the world. Genetic engineering involves the process of transferring genes between organisms, or modifying their genes to remove an undesirable trait or characteristic, or add a desired one. The other examples of biotechnology include baking that uses yeast and enzymes to cause the bread to rise or expand; cheese making that cultures bacterial enzymes; and biomass converter that changes sewage or waste water in sewers to fuel.

Many learning institutions are cognizant of the importance of biotechnology to human life and activities. For this, they have established departments or divisions that would take care of the programs of study for this important discipline. The University of Maryland University College in Adelphi, Maryland, United States offers programs for a Master of Science degree in Biotechnology and Biotechnology Management under the Graduate School of Management and Technology with core courses such as Societal Issues in Biotechnology, Introduction to Bioinformatics, Bio-processing and the Business of Biotechnology, Techniques of Biotechnology, Foundations of Project Management, and many other courses for a concentration in biotechnology management. In the New York University Polytechnic Institute in Brooklyn, New York, a biotechnology program offers courses that lead to both the bachelor’s and Master of Science degrees. The bachelor program courses include the general concepts in biotechnology, food biotechnology, basic manufacturing concepts, drug development, and basic concepts of the discipline. The Master’s degree program focuses on the management and practical functions of certain technologies in biotechnology, and uses computational or computer methods to solve problems in biology in the case of a study of biomedical informatics. A 4-year Bachelor of Biotechnology program at the University of Queensland in Australia combines the elements from such areas as microbiology, immunology, physics, engineering, mathematics and chemistry, and concentrates on foundational subjects in the first three years.

Study Brewing and Beverage Technology

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Study Building Technology

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It is common knowledge that the Empire State Building is the most famous and one of the tallest in the world at 102 stories. Opened in the 1930s, it is a living testimony to durability and sustainability made possible through man’s know how in building and engineering technologies, which are taught in institutions of learning. Existing for more than 70 years, the building now undergoes a major sustainability retrofit to make it, so they say, as an example of an energy-efficient structure, and of economic and environmental revitalization, which are some of the very areas of study in a Building Technology program in schools.

Building technology finds its origin in the 19th century when man started to determine the types of materials available for construction such as earth, clay, stone and timber. Into the late 19th century, concrete began to play a significant role in construction until the mid-20th century when plastics were employed in building construction. Up to the current times architects, engineers and designers have continued to use a variety of building materials in innovative ways known to them.

Building Technology is offered as a program of study in many collegiate institutions in the world, usually under a specific department, granting students with diplomas, associate, Bachelor and Master’s and even Ph.D. degrees upon graduation or completion of the requirements. A course in Sustainable Building Technology, or Intelligent Building Technology teaches students how to manage the so-called intelligent building systems, while Sustainable Building Technology aims to develop graduates to have not only scientific and technical skills but also the knowledge and understanding about the design of building projects so that they can contribute to that design. In a Residential Building Technology course, students are taught to design, build or manage residential constructions, based on given building science principles and sustainable designs. A Building Construction Technology course, on the other hand, provides students with knowledge and skills needed in the building construction industry. Other areas of study covered under the program include Computer-aided Design and Building Specifications, Total Building Performance, Building Management Systems, Air-conditioning and Hydraulics, Fire and Life Safety Management, Security and Surveillance, Construction Methods, Energy Performance of Buildings, Sustainable Materials Specifications, Environmental Design, Architectural Practice and Management, Construction Math, Framing Principles and Methods, Exterior and Interior Finish Theory, Construction Estimating, Specialty Buildings and Construction Methods, Site Layout and Concrete Form Construction, and other areas listed under the institution’s study program.

Now trained to respond to the needs of building occupants and enhance productivity, as well as improve the quality of living and working spaces, and equipped with innovations in building technology that can adequately meet the problems in the building industry, Building Technology graduates face career opportunities as project engineer, technical engineer, quantity surveyor, technical executive, senior engineer, service engineer, site engineer, project coordinator, resident engineer, assistant architect, condominium manager, and architectural officer. They can also find jobs in architectural technology firms, building services, engineering and design outfits, project management companies specializing in renewable energy technology, and local government offices engaged in planning, or building control departments.

Study Chemical Technology

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Simply defined, chemical technology is the technology that involves chemicals or chemical substances, or is a study of technology that aids in doing chemistry, focusing on the instruments used rather than the chemistry itself. This conforms to the meaning of technology which pertains to the knowledge and usage of tools, systems or methods for a specific purpose or to solve a specific problem. As a program of study, it is offered in many institutions, especially community colleges, in a 2-year course either for employment purposes or as a path to university education.

In the United States, numerous community and technical colleges offer chemical technology programs usually for an Associate of Applied Science degree or certificate. One is the Texas State Technical College which prepares its graduates for state employment in Texas in chemical and petrochemical companies or in plastics, environmental, food, semi-conductors and consulting firms. Students desiring to pursue a 4-year baccalaureate degree in chemical technology take other core courses such as Material Science, Molecular Biology, Biotechnology, Environmental Chemistry, Biochemistry, Medicinal Chemistry, and Pharmaceutical Chemistry. The Ivy Tech Community College in Indiana offers a chemical technology program in 64 credit hours, concentrating on the application of the principles of mathematics, science and technology in sample preparation and analysis. The Jefferson Community and Technical College in Kentucky offers a program in industrial chemical technology leading to a 2-year Associate in Applied Science degree with core courses of Statistics for Quality, General Chemistry, General Chemistry Laboratory, Introduction to Industrial Chemical Technology, Chemical Engineering Fundamentals, and Fluid Mechanics. The Northampton Community College in Pennsylvania also offers a 2-year program in chemical technology for a degree of Associate in Applied Science for students who have interest in problem-solving, science, chemistry and laboratory work for training as chemical technicians for employment in various facilities, especially hospitals and clinics and industrial plants.

Students of a 2-year chemical technology program at the Saskatchewan Institute of Applied Science and Technology in Saskatchewan, Canada are trained in the following areas: (a) Basic organic, analytical, physical and environmental chemistry, (b) Recording, processing and reporting data, (c) Analytical Instrumentation, (d) Chemical engineering, (e) Quality assessment, (f) Handling and manipulating chemicals, (g) Communication of results, and (h) Servicing and maintaining scientific instruments. Authorities of the institute say that their graduates face bright job opportunities as chemical technologists, laboratory analysts, laboratory technologists, research technical assistants, and sales managers. The graduates of the 2-year chemical technology program at the Northern Alberta Institute of Technology also in Canada, are prepared to work as skilled laboratory technologists in government, industrial and commercial laboratories, or organizations in forensics, biochemistry, food and agricultural analysis, metallurgy, and petroleum and petrochemical analysis.

Study Civil Engineering Technology

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The history of civil engineering as a profession of designing and executing structural works dates back to 2900-2500 BC during the construction of the pyramids in Egypt, which were the first known instance of large construction. This was followed later by the construction of the Great Wall of China in 220 BC during the time of Emperor Shih Huang Tih. Both structures are now considered as two of the engineering wonders of the world. But it was only during the 18th century when civil engineering began to be distinguished from military engineering. Between 1819 and 1835, civil engineering began to be taught in colleges, culminating in the awarding of the first civil engineering degree to students and in the first woman to receive the same degree in 1905.

Civil engineering is now both a profession and a program of study, encompassing the conception, design, construction and management of residential and commercial buildings and fixed structures and ground facilities. A separate field of study of Civil Engineering Technology focuses on the application of basic engineering principles and technical skills in support of civil engineering projects. As a course of study it offers associate degree, certificate and baccalaureate degree programs in various colleges and universities in the world. It is generally aimed at making graduates competent in applying the principles of civil engineering to the planning, development, design, construction and management of both private and public facilities.

The areas of study in the Civil Engineering Technology program involve a long list of subjects but which are all designed to prepare students how to meet expectations in the engineering industry especially in terms of evaluating the issues about ethics, the society and environment. The most common subjects are Civil Engineering Design, Surveying, Materials Testing, Construction Process, Structural Design of Buildings, Water and Waste Water Engineering, Solid Waste Management, Analysis of Steel, Concrete and Timber Structures, Steel Design, Soil Mechanics, Structural Analysis, Project Cost Analysis, Fluid Dynamics, Reinforced Concrete Design, Hydrology, Mathematics, and Transportation Systems. A study of the program leads to the Bachelor of Science in Civil Engineering Technology, Associate of Science in Civil Engineering Technology, Associate in Civil and Environmental Engineering Technology, with electives in Structural Analysis, Environmental Issues, Surveying and Geotechnical subjects.

Graduates of Civil Engineering Technology are likely to land high-paying jobs in the industry. They can become licensed land surveyors, or registered professional engineers, civil engineer designer, construction project manager, estimator and scheduler, engineering technician, materials technician, highway designer, land development technician, transportation inspector, and municipal planner.

Many engineering colleges offer Civil Engineering Technology programs to persons to enable them to build, repair and test the designs of engineers and bridge the gap between the designer and user, or for them to become engineering technologists who save the designs of engineers from becoming as mere “scraps of paper.”

Study Computational Mechanics

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Study Computer Electronics

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Study Computer Engineering Technology

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Study Computer Repair Technology

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Study Construction Management

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Study Construction Management Engineering Technology

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DenmarkThe United States

Study Creating EBooks and Digital Magazines

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SpainThe United States

Study Database Technology

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Database technology is the scientific study that involves creating, organizing, and maintaining information for storage in a computer, such as used in businesses for customer account data. Databases have been made (by computer scientists) for easy access to databases, improve entry speed, and develop the method of preventing unauthorized users to obtain, examine, or retrieve data. A ‘data base’ is a collection of entries containing item information that can vary in its storage media and in the characteristics of its entries and items.

The student in this course earns the degree in Associated in Arts (AA) degree in Database Technology where he learns the skills in programming, troubleshooting, and maintenance of the database system. In school, the student learns about the database as a generalized collection of data not linked to one set of functional questions but with such information files set up on disc to form the data base for a fully integrated production control system. He could learn that the data base from which the volumes are compiled is maintained on magnetic tape and should be updated on a weekly basis.  

Being a learner of the course it is but right for the student to know more about what scope the study has generated. In 1964 a new coinage emerged in the computer literature denoting collections of data shared by end-users on time-sharing computer systems. In the commercial data processing world, the proper database did show the collected data which came about from merging data requirements of separate applications. Being an engrossing course, the student learns the function of databases in the world of business such as how databases were used in the organization and storage of essential data. Problems on hackers’ attacks were lessened through the knowledge of susceptibility of databases and the precautionary systems being undertaken to guarantee security.

The curriculum for the degree is: 1. theoretical idea of database – student’s study on the essentials of the use of database, questions on removals; 2. planning and organizing – filling up the databases, and discussions on the involved database samples; 3. application and direction – managing, administering the database system, and securing data; and 4. program designing and development of languages for databases.

Where to study database technology is not a problem for students who want to pursue the career. They can enroll at, among others: the College of Southern Nevada, in Las Vegas; Strayer University; Kaplan University; Walden University; DeVry University; University of Phoenix; Wake Technical Community College, North Carolina; Brevard Community College; and schools located in Alabama, Arkansas, Columbia (D.C.), Delaware, Florida, Georgia, Indiana, Kentucky, Louisiana, Maryland, and Mississippi.

Career and job opportunities are numerous in the field of database technology, for example: Software Engineer; Database Developer; computer programmer aide; junior programmer; senior programmer; data manager; programmer analyst; mid-range computer specialist; desktop publisher, production designer, electronic publisher, illustrator, multimedia specialist, multimedia presentation developer, interface designer, computer graphic designer, and project manager; Network systems and data communications analyst; Webmaster; analyst; computer scientist; database administrator; works found in Government and financial and educational institutions.

Study Dental Lab Technology

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Dental lab technicians are the often unseen geniuses of the dental industry. They seldom interact with patients directly, but rather follow the instructions of dentists and orthodontists in order to create custom supplies for patients. For example, when the dentist takes a mold of a patient’s mouth in order to get a fitted set of dentures, it is a dental lab technician who takes the mold and crafts those dentures for the patient. Dental lab technicians create a variety of dental products in this way, including retainers, bridges, caps, veneers, and splints, all of which help patients keep their teeth healthy, straight, and beautiful.
Personal Qualities
  • Combination of scientific and artistic mindset (both analytical and creative)
  • Patience and attention to detail
  • Passion for helping others and keeping them healthy
  • Reliability and conscientious adherence to instructions and timetables

Study Options
Dental lab technology programs are all fairly similar, since the requirements for getting a job in the industry are fairly strict. All of them will require some combination of classes in dental anatomy and the practical skills for creating prosthetics. Your coursework as a student of dental lab technology will include such courses as medical ceramics, dental terminology, and hazard control. These courses enable students to understand not only how to do their work, but how to do it safely, quickly, and effectively.
Career Options
The dental care industry is a thriving one at the moment, and job opportunities are sure to stay strong in the future. Because people care about their health, and especially the health of their teeth and gums, the demand for dental lab technicians is fairly recession-proof. While the job of a dental lab technician is usually less lucrative than that of a licensed dentist, it also requires considerably less school. For those who cannot afford the investment of time and money to complete dental training, a dental lab technology major is a superb option.
Dental lab technicians typically assist licensed dentists, and can work in a variety of settings. These include hospital dental labs, dental research labs, and private dentist’s offices. Regardless of where they work, dental lab technicians take an enormous amount of pride in their work and the responsibility that it entails. They products that they create are critical to patients’ health and sense of wellbeing, and so professional dental lab technicians are meticulous about creating the most attractive and functional hardware that they can.

Study Diesel Technology

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The United States

Study Dietetic Technology

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Dietetic Technology is the scientific method of applying the fundamental rules of nutrition to the food. It addresses the regulation, the kind and quantity of food to be eaten particularly as a branch of medical science. It is in this area of knowledge that the student accrues the degree Associate of Applied Science Degree in Dietetic Technology, or Associate in Applied Science (AAS). He could be able to pursue the study to obtain Bachelor of Nutrition Food Sciences.

In school, the student learns well that Dietetic Technology was devised to help him become a health professional specializing in public health nutrition. In the studies, he develops the wisdom and expertise in the profession by thorough learning with regard to subjects on nutrient metabolism, food composition and epidemiology. It is important that he understands what epidemiology relates with nutrition. He studies that discipline is important in the handling of food to hold disease infection and contagion, the specific causative agent (as a bacterium or virus) of disease and factors that control them.

Course modules pertain to process and method of supplying nutrition to the cells and the body in general; ways of feeding and nourishing population; marketing (action or business of bringing or sending commodities to market; and management of people). Within the course modules are research and consultancy; use, treatment, or control of things or persons; conduct of operation and enterprise; management of finances; attending to food and nutrition; restaurant and hotel management; and concern to public safety and health.

The student makes the classroom a clinical laboratory where he learns to strategize, appraise and evaluate, implement the operation of his dietetic profession. His four years learning will lead him to an Associate’s degree (programs that train students become nutrition technicians), and Bachelor’s degree or Master’s degree which lead him to the career of dietician. As a student endeavoring to be a dietetic practitioner learning about foods and nutrition, he should have acquired science courses in chemistry, biochemistry, and biology which would help a lot in the study process.

He has to take subject courses in business; food science; community health and operations; psychology; and commercial law with prerequisite subject such as General Chemistry, College Algebra, Microbiology, Physiology and Food Science.

School where a student chooses to pursue his studies is: Schools in England - University of Surrey; University Of East London; London South Bank University; University Of Leeds; University Of Hertfordshire; Loughborough University; and the University Of Nottingham. There are also other schools in England to pick his choice. They are the University Of Glasgow, and the Roehampton University; the University Of Greenwich, and the University Of Huddersfield. There are also the University of Lincoln, and the Canterbury Christ Church University; the Newcastle University; De Montfort University; and the University Of Warwick.

There are the U.S. universities, such as: Washington State University; Pennsylvania State University; Oregon State University; and the North Carolina State University. Apart from the above, there is the Auburn University; California Polytechnic State University; Mississippi State University, and many more schools found in every state. There are the Canadian universities, for example, the McGill University; University of British Columbia U, and the University of Manitoba.

Graduate in any of the degrees is qualified to be a Dietician, Food Scientist, Dietetic Technician, Home and Farm Management Advisor, or a Public Health Educator. The graduate can look an employment in a hospital, in mental and social welfare facilities, schools, food manufacturing and processing industries, restaurants, and in penitentiary and rehabilitation institutions.

Study Digital Photography

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Study Digital Technology

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Study Dubbing, Translation and Subtitle

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Study Earth & Energy Technology

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Are you one of the millions of people around the world concerned about the use of fossil fuels for energy and the negative effect they are having on the planet?  Would you be interested in earning a degree that would allow you to be involved with the production of cleaner and renewable energy sources, including wind, solar, water, and particularly, nuclear energy?  The Bachelor of Science Degree program in Earth and Energy Technology gives students the opportunity to gain valuable knowledge, insight and hands-on experience in the renewable and nuclear energy sectors.  Professionals who earn this degree are currently in high demand throughout the world, and the growth potential in these industries is virtually unlimited. 

To help you get started, below we have provided a brief synopsis of the Bachelor of Science Degree program in Earth and Energy Technology, including a course description and an outline of some of the coursework you’re likely to encounter while participating in the program.
Bachelor of Science Degree in Earth and Energy Technology:  Course Description
The Bachelor of Science Degree in Earth and Energy Technology is a four-year undergraduate program designed for students planning to pursue a career in the clean energy industry.  The program is now being offered by colleges and universities throughout the country and the world, and the while the coursework in the program does address renewable energy sources such as wind, solar and water power, the majority of the degree revolves around the basic theory and fundamental applications of nuclear radiation and power generation.  Students in the program are trained and prepared to become successful candidates for jobs in renewable energy, or to take positions as either radiation protection technicians or licensed nuclear operators.
The Bachelor of Science Degree in Earth and Energy Technology is a multi-disciplinary course of study, one that involves mathematics, science and technology, as well as opportunities for practical experience and laboratory research.  Students who graduate from the program are eligible to pursue entry-level positions in the energy industry and/or enroll in a graduate study program to augment their knowledge and experience.
Bachelor of Science Degree in Earth and Energy Technology:  Coursework
The Bachelor of Science Degree in Earth and Energy Technology includes core and elective coursework.  These courses are in addition to the general education requirements of the university, in subjects such as mathematics, composition, physical and life science, social studies, language, and communication or speech.  While the titles of the core and elective courses may vary from institution to the next, they usually include the following:
  • Introduction to Renewable Energy and Its Applications
  • Introduction to Chemistry
  • College Algebra, Geometry and Trigonometry
  • Survey in Calculus and Statistics
  • Introduction to Physics
  • Principles of Solar Technology
  • Wind and Water Applications
  • Radiation Fundamentals
  • Radiation Monitoring
  • Electrical Sciences
  • Reactor Systems
  • Primary and Secondary Power Plant Systems
  • Electrical and Auxiliary Power Plant Systems
  • And more…
To be eligible to enroll in the Bachelor of Science Degree program in Earth and Energy Technology students must possess at least a high school diploma or its equivalent, demonstrating a strong aptitude in mathematics and science.  Many colleges and universities also require students to earn a passing score on an entrance examination prior to being considered for admission into the institution.

Study Electrical Engineering Technology

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Study Electrical Technology

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Study Electrochemistry

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The United States

Study Electrodynamics

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RussiaThe United States

Study Electronic Engineering Technology

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Electronics engineering was formerly known as radio engineering in the 1950s. It became as a profession during the technological improvements made for the telegraph industry in the late 19th century and in the radio and telephone industries in the early 20th century. With the further development of the telephone, radio and television equipment, came the electronics engineering or the electronics engineer. Today it is now a broad engineering field that uses a scientific knowledge of the effects of electronics in order to develop systems, components, devices and equipment. As a program of study, it covers a large part of electrical engineering courses especially in European and American schools.

An electronics engineer is usually trained for three to four years in college under an undergraduate degree program that covers common topics like physics, mathematics, chemistry, project management, and various topics about electrical engineering. In most countries, an electronics engineer is certified by professional or government body before being allowed to practice the profession. In the United States, South Africa and Canada, a certified electronics engineer is given the title Professional Engineer, a Chartered Engineer in the United Kingdom, India, Ireland and Zimbabwe, as Chartered Professional Engineer in Australia, and as a European Engineer in the majority of European Union countries. The job market in the U.S. in 2006 has placed the position of electronics engineer as among the top positions currently in demand by employers.

Various courses of study are usually under the department of engineering of many institutions. In the Blue Ridge Community College in North Carolina, the core of courses under the Electronics Engineering Technology program include Basic Electricity, Digital Concepts, Solid State Fundamentals, and Microprocessors, emphasizing the development of the ability of students to analyze and trouble-shoot electronic systems. In the European University of Lefke in Cyprus, students take four years to earn a degree in electronics and electrical engineering with subject areas such as Calculus, Chemistry, Physics, Digital Circuits, Circuit Theory, Linear Algebra, Electromagnetic Theory, Signals and Systems, Electronic Instrumentation, Engineering Economics, and Engineering Research and Design. The Sirindhorn International Institute of Technology in Thailand offers a bachelor’s degree program in electronics engineering with compulsory and technical elective courses as core courses, and concentrations in optical and mobile communications systems, Solid State Technology, Microelectronics, Advanced Electronics, Mechatronics, Robotics, and Advanced Control Systems in the fourth and final year of the curriculum. A university in Turkey has a bachelor’s degree program under the Department of Electrical and Electronics Engineering with four main categories of Basic Sciences, Humanities and Social Sciences, Fundamental Engineering Sciences, and Professional Sciences. The courses under the Professional Sciences category are offered as Technical Electives in the final year for students to be able to increase their knowledge in specific engineering areas.

Study Electronic Technology

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Technology has transformed and changed the way of life, from the way we work and manage our responsibilities, to the way we do things, be it simple or complex. Hot career opportunities all require literacy in using technological innovations as the power of electronics and all computer-based technologies conquer everything. This was simply incomprehensible many decades ago.

The program Electronics Technology mirrors the continuous progress taking place in this contemporary era, the year of electronics and technological revolutionary discoveries and breakthroughs. The products and results of Electronics Technology let us move forward and as a budding program that has skyrocketed for the past few years, more professional acquire electronics technology-related careers that provide employment opportunities to everybody who wants to engage in research, medical, manufacturing, communications, consumer products, and securities among others.

Apart from being a lucrative and challenging career, Electronics Technology and its comprehensive curriculum, provide future Computer Technicians, Computer Software Engineers, Analysts, Database Administrators, Network and Computer Systems Administrators the change to acquire the right qualifications and develop their full potential to cope with the growing opportunities in electronics. The educational foundation, combination of knowledge, back up with practical know-how will help students advance in this field and jump on higher level of concentration, like a master’s degree in electronics, business or technology.

The solid foundation acquired during the course will equip students to handle real life situations that will allow them to communicate effectively using technical and non-technical theories and applications, diagnose and test various electronic systems, manage multiple projects, and constantly update their skills as they face more learning opportunities outside the academe.

The course itself provide students the skills and education they need to delve into electronic principles, techniques, devices, and materials with the aid of technology, applied mathematics, and science. Throughout the course, students work on more areas of engineering areas namely installation, manufacturing, maintenance, product development, and electronic and technological applications employed in electronic products and services. As electronics continue to regenerate and diversify the world and as number of high-tech products and devices reach its toll by the day, the demand for professionals with a diploma in Electronics Technology escalates greatly.

Students who pursue the course have to prepare themselves to learn invaluable skills say for instance the fundamentals of electronics, applications of theories in industrial electronics, electronics circuits and systems, computer programming, electronic communications, computer networks, digital signal processing, and security systems.

Students who acquire associate degree in Electronics Technology will be able to perform all necessary applications and solutions in dealing with electronic systems using their literacy and expertise in the subject.

The future that awaits the graduates of the course is promising. The median annual earnings that an Electronic Technician for instance gets range from $60,000 to $65,000 (United States). This culminates the fact that skills acquired in taking the course is an investment that never gets out of value. Hence, students who will be taught how to develop, design, and maintain electronic systems can further their career in no time.

Study Engineering Graphics Technology

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Study Engineering Technology

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Study Geomatics Technology

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Study Global Energy Systems

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Study Graphic Information Technology

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Are you looking for a degree program that offers a real-world education in the computer field, one that combines your love of the graphic arts with exciting new computer technologies?  If so, you may want to consider pursuing a degree in Graphic Information Technology. The cross-media nature of the graphic information industry demands that tomorrow’s graduates have an understanding of the full spectrum of graphic technology, reproduction processes and current business practices, and this is exactly what you’ll learn while earning a Bachelor of Science degree in Graphic Information Technology.
Bachelor of Science Degree in Graphic Information Technology
The Bachelor of Science degree program in Graphic Information Technology is ideal for students looking for an exciting career working with computers and information systems.  The program, which typically spans four years or eight full semesters, is designed to prepare students for a position as a graphic technologist, a career that encompasses web development and internet technologies; printing and digital publishing; and commercial and technical imaging.  The coursework in the Bachelor of Science program in Graphic Information Technology emphasizes both the theoretical aspects of the field, as well as practical applications, the latter achieved through hands-on, instructor-directed laboratory practice.
Some of the skills students will learn while participating in the B.S. program in Graphic Information Technology include:
  • Computer drawing and illustration, utilizing a number of technologies
  • Commercial and technical photography and photo imaging
  • E-commerce laws and practices
  • Technologies relating to gaming and computer simulation
  • Advanced-level computer languages in graphic programming
  • Three dimensional modeling and multimedia
  • Project management, including accounting and communication
  • Technical document design
  • Web development and interactive technologies
  • Quality assurance
  • And many, many more…
Eligibility requirements for the Bachelor of Science Degree program in Graphic Information Technology may vary from institution to institution.  Generally, the program is open to all undergraduates who have completed the general education portion of their studies, assuming they have met the minimum mathematics requirement, which for this program is typically college algebra or pre-calculus.
Career Opportunities in Graphic Information Technology
A degree in Graphic Information Technology prepares graduates for any number of technical and management careers in the exciting and diverse industries of graphic communication, web development  and information technology.  Job duties in these positions will vary depending on the particular industry, but they may include:
  • Technical imaging and technical photography
  • Web development and web design
  • Internet development
  • Management of graphic information assets
  • Planning, implementation and analysis of print, Internet-based and multimedia communications
  • Digital printing and publishing
  • Assuring graphic products are of the highest quality
  • Producing technical and digital media
  • And more…
These careers, which may include titles such as Computer Programmer, Web Developer, Multi-media Artist, Animator and Graphic Designer, are in very high demand with unlimited growth potential for the foreseeable future.  Whether you plan to work for a large IT firm or start your own business as a freelancer, a Bachelor of Science Degree in Graphic Information Technology will help pave the way to a challenging and well-compensated computer-based career.

Study Heating Refrigeration and Air Conditioning Technology

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Of all our many modern conveniences, perhaps the most convenient is the ability to control the temperature in a room. Climate control involves a number of complex systems, all of which must be carefully calibrated to the specifics of the room, vehicle, building, or compartment where they operate. Of course, there is always a need for skilled workers to maintain and repair heating, ventilation, air-conditioning, and refrigeration systems (typically referred to as HVAC or HVAC-R systems).
Traditionally, many HVAC technicians have learned their skills through apprenticeships and on-the-job training rather than formal education, but this is beginning to change. Technical and vocational schools now offer HVAC training programs that not only prepare students to work in the field, but also to move into management should they choose to do so later in their career.
Personal Qualities
  • Passion for machines and desire to work closely with complex HVAC technology
  • Good problem-solving skills and ability to think logically in a step-by-step fashion; clear, focused mindset
  • Friendly, professional demeanor
  • Mechanical hobbies such as automotive repair or home improvement
Study Options
Although very few four-year colleges offer HVAC programs, they are becoming increasingly common in two-year technical schools and private training facilities. Some programs take as little as 6 months to complete, which is highly beneficial for those who hope to complete school and begin work as quickly as possible. It is worth doing some research, however, before choosing one of these short-term programs. Many are excellent and will provide high-quality instruction and valuable networking opportunities, but some others are diploma mills that seek only to take advantage of aspiring students. The diploma mills will not give you the kind of instruction that you need to succeed in this field. If you're uncertain whether the program you are researching is reliable, consider asking which accrediting bodies, if any, will vouch for the program’s quality. Most reputable programs are accredited by the Accrediting Commission of Career Schools and Colleges of Technology (ACCSCT). Any program not accredited by this body may be a scam.
Although two-year programs can seem time-consuming and sometimes expensive, there is an advantage to choosing the long-term track: these programs lead to an Associates Degree, while short-term programs do not. An Associates Degree is preferable to a certificate or nondegree diploma for 2 reasons, first because they can lead to more highly-paid managerial positions, and second because they often count for college credits, so a person with an Associates Degree has a head start on getting his or her Bachelors Degree.
Career Options
It  should come as no surprise that graduates from HVAC and HVAC-R programs almost invariably end up working as HVAC technicians. The vast majority travel to homes and workplaces to install, repair, or update existing units. A few others may work in sales or management, where their understanding of the technical aspects of heating and cooling systems helps them to do their work better. In their careers after graduation, HVAC technicians have fairly steady work, good job security and benefits, and of course the satisfaction of knowing that the work they do is greatly appreciated by others.

Study Industrial and Agrifood Biotechnology

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Study Industrial Automation

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Industrial automation is utilization of information technologies and various control systems to dramatically decrease the requirements for human work and input for the production of products, services, and goods. It is a step up above mechanization, which sought only to aid the human workers with the strength based duties of their work. Industrial automation not only assists in mechanical improvement of work, it also reduces the need for human sensory input and mental analysis. As technology takes great leaps of advancement at an increasing pace, industrial automation also becomes increasingly important in many facets of every person’s daily living experience.

Industrial automation has a very strong impact not only on the obvious field of engineering and manufacturing, but on other fields as well. For example, in the field of communication, much of the multitude of telephone operators that used to control the phone lines have now been replaced by more efficient and more cost effective automated answering machines and telephone switchboards. In medicine, processes such as radiography and electrocardiography are screened in the initial stages through automated systems. Even the laboratory analyses of cells, genes, and human tissues are accomplished at a much higher rate of accuracy and efficiency with instruments developed by industrial automation. Banks have been able to make the most out of industrial automation with the development of the automated teller machine which made 24 hour banking possible.

Because of this continuous development of industrial automation, there is a great need for people with expertise in this field. Proper education and training in this field is essential to keep the advances in check and to make the most of the automated technologies that are constantly being created and expanded.

A course in industrial automation would involve in depth studies regarding industrial automation software and hardware. Topics would usually dwell on familiarity with software concepts and relays, configuring input and output systems, entering and editing data, and establishing awareness with common industrial automation hardware. Heavy reference would also be given on industrial automation systems and networks. This would dwell on topics such as accessing system variables, messaging across networks, and tags (both produced and consumed). Familiarity with the different families of processors and their related hardware are also usually included.

Additional training for industrial automation topics such as troubleshooting and maintenance, motion control, and concepts development are also provided for a more rounded instruction. Troubleshooting and maintenance knowledge and skills are very important in the field of industrial automation. Diagnostics and connection training are usually the main thrust in this area of discipline. However, determining and locating systems faults and errors are also given great attention.

With all of this training, there are a lot of job opportunities available for the specialist in industrial automation. Manufacturing companies, medical offices and laboratories, communications companies, and information technology corporations all have a distinct need for industrial automation skills. Even the financial sector has a high demand for industrial automation specialists. Work as programmers, laboratory technicians, machine operators, production supervisors, and control systems managers are all within the realm of possible positions to be filled.

Study Industrial Electronics

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Study Industrial Maintenance

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SpainThe United States

Study Industrial Technology

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Are you seeking a professional career position in which your knowledge and skills with regard to current and emerging technologies can help a company, regardless of the industry, become more effective and successful?  Have you considered pursuing a degree in the exciting field of Industrial Technology?  With a Bachelor of Science Degree in Industrial Technology graduates are armed with all the skills and information they need to further their career goals.  To help you become more familiar with this degree track, below we have described the program in a bit more detail, including a brief course description, the class offerings students will encounter while participating in the program, and the opportunities available for graduates.
Bachelor of Science Degree in Industrial Technology:  Course Description
The Bachelor of Science Degree in Industrial Technology is an undergraduate program now being offered by hundreds of universities around the world, typically spanning three to four years in duration, depending on the institution.  The program, which involves both core and elective courses in addition to the university’s general education requirements, is designed to prepare students to assume technical leadership responsibilities in a wide variety of industries, including manufacturing, transportation, communications, and utility services.  Students who enjoy the teamwork aspect that’s involved in solving technical problems are especially well-suited for this degree, and the elective courses offered through the program, in fields such as sales, marketing, training, production, facilities, packaging and quality assurance, will allow them to focus their studies on industries in which they have a particular interest.
Bachelor of Science Degree in Industrial Technology:  Coursework
As mentioned above, the coursework for the Bachelor of Science Degree in Industrial Technology includes both core and elective classes.  The exact titles of the classes may vary from one institution to the next, but they may include courses such as:
  • Industrial Power Systems.  This course provides an introduction to the various systems that supply energy, convert energy to power, transmit energy and power, and use energy to drive industrial enterprises.
  • Problem Solving with Computer Aided Design (CAD).  This class covers the fundamental theory and practice of technical design and communication and management of information systems, focusing on both two-dimensional and three-dimensional design strategies for solving industry-specific problems.
  • Manufacturing Processes.  This course places an emphasis in shaping metallic products. In addition to other aspects of the course, students will learn how to use precision measuring, technical drawings and safety equipment, as they apply to metal machining, welding, casting and sheet metal fabrication.
  • Industrial Materials.  In this course, students will learn about the structure, applications and limitations of select industrial materials, including ferrous and nonferrous metals, ceramics, glasses, composites and organic materials.
Opportunities for Graduates
Graduates who successfully complete the B.S. program in Industrial Technology can use their new-found knowledge and skills to compete for positions in a variety of industries, including the services and maintenance sectors; engineering; manufacturing; transportation, construction; aviation and aerospace; petrochemical; education; architecture; safety; quality control; and drafting and design.

Study Information & Communication Technology

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Information and Communications Technology (ICT), more commonly and preferably called Information Technology (IT), is a course that has everything to do with the latest communications technology such as computers and mobile phones. To be more specific, ICT is the study, development, implementation, support, and management of these technology-based information and communication systems. The IT industry is one of the biggest—and still growing—industries today because of the continuing advancement of technology. Many people, however, do not know that Information Technology has existed even before computers came to be.

Even in the pre-mechanical age—3000 B.C. to 1450 A.D.—there were information that needed to be passed around and kept for future reference. The earliest information were written down using petroglyths then Phoenician alphabet; while the earliest technology was rocks and leaves which, after some years, developed into fabric then to paper. Probably the most advanced information technology that humans developed during the pre-mechanical stage was the abacus.

The abacus, and the development of the numbering systems, fueled the innovative minds of humans that, in the mechanical stage dated 1450 to 1840 many technologies were conceived and developed. The early inventors, some of them you might know like Blaise Pascale (invented Pascaline) and Charles Babbage (considered the “Grandfather of Modern Computing”) made what would be the ancestors of the modern computers.

1840 – 1940 was the Electromechanical Age, brought about by the discovery of the ways to harness electricity. It was during this age that information was converted to electrical impulses to pass it more easily through the different telecommunication technologies invented. Telegraph, Morse Code, Telephone and Radio were the most significant inventions then. It was also during this age that the earliest traces of what would later become the ancestors of the modern computer were developed by Herman Hollerith and IBM.

Today, we are in the Electronic Age which has begun with the early developments of the computers we use now; and Information and Communications Technology—which had first started as just keeping all the written records of information—has become an industry that is not only big, but necessary.

Information and Communications Technology course has many specializations, each dealing with one feature or development of the latest communication technology yet: the computer.

One specialization focuses on the study and development of the applications of a computer. Students that want to specialize in application development will learn the different programming languages like Java, PHP, C/C++, PL-SQL, and many more. In addition to this, students will also learn how to use Oracle, MySQL, MS Access, PostgreSQL, and other database engines.

Another specialization is web development which will require students to learn the web applications and technologies such as HTML, XML, JavaScript, and CSS to name a few. Web development students will also learn how to design websites and how to implement software necessary for web applications. More often than not, web development is also a requirement in applications development and vice versa.

Students taking Information and Communications Technology can also specialize in network systems where they can learn about network design and management of files. Designing and implementing local area networks or LANs and wide area networks or WANs; configuring network devices (e.g. routers, firewalls, VOIP phones, etc.); learning and using internet services like DNS, web, mail, DHCP, and others; and understanding and using network management tools like Nessus and MRTG are but few of the things a student specializing in network systems will learn.

Information and Communications Technology also has a specialization on mobile computing and embedded systems. Mobile phones are also communication technologies that need development and students specializing in this are will learn the basics of electronics and computer organization and architecture. Basic knowledge in applications development can be helpful especially in developing embedded systems for mobile phones. Low-level programming like C and Assembly and high-level programming (e.g. Java 2 Micro Edition) are required when specializing in this area.

Job positions for Information & Communication Technology:

Network Administrator

Modern technology and Internet have really improved the way we communicate. Talking to people continents away has not only become possible, it has become an ordinary, everyday feat. Even passing information from one person or organization to another has become as easy as click, select, send; this is because of computer networking. A computer network is a group of computers connected to each other by network routers or via the Internet. Planning and setting up a computer network is the main responsibility of an Information and Communication Technology professional that specializes in network administration.

Network Administrators have to consider both physical and logical perspectives when planning and setting up a computer network. Physical perspectives include geographic locations, physical cabling, and network elements. On the other hand, the logical perspectives, often referred as subnet or subnetwork, mean connecting computer through the internet.

Networking Administrators are expected to know how to configure and operate networking hardware and software to set up the network how the client wants it. Networking hardware include routers, network interface cards, hubs, gateways, modems, ISDN adapters, network bridges, networking cables, access points, and firewalls. Ethernet adapters and wireless networking via wireless routers have become increasingly popular among office setup network. Other hardware used for networking are datacenter equipments (file servers, database servers, and storage servers), network services (DNS, DHCP, and email), and even mobile phones and Personal Digital Assistants (PDAs).
Networking software such as Chiron FS, Cisco IOS, Intel LANSpool, LinuxPMI, and Microsoft InfoPath are installed and used so that computers connect through a network can communicate and share information. Networking Administrators should be familiar with most—if not all—networking software and should know which is best to use to cater to their client’s specific needs.

Companies and organizations—both large and small—share information that are rather confidential and should not be read by outsiders. It is the network Administrator’s responsibility to set up the network security and maintain its performance. The most common network security threats nowadays are: targeted phishing (phishing is a kind of internet fraud aiming to steal personal and valuable information like social security numbers, usernames and passwords, credit card numbers, etc.), bugs in operating systems kernels, client-side vulnerabilities (for dynamic web pages), web-based worms, spyware, targeted file attachment attacks, web-based botnets, windows file format attacks, blacklist defeats, and counter-surveillance. Network Administrators should be familiar with the network security threats and the ways to defend and remove such threats, and to repair the network if needed.

Add to the list of responsibilities of a Network Administrator is the task of preventing and repairing the network should it encounter a problem. The most common problems are: cable problems which includes cu cables, incorrect cable connections, cable shorts, interface level, and connector problem; connectivity problem which can be due to configuration changes or malfunction of a networking hardware; excessive network collisions which can be a result of bad network setup, too much information being passed, or a network card stuck in a transmit mode; software problems like DNS configuration, WINS configuration, and registry; and duplicate IP addressing which can result to irregular communications.

Study Information Technology Systems

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Today everything is IT (Information technology) enabled. It is a very dynamic industry. Managing IT resources and understanding its technology and systems is the key to every organization. Many universities around the world offer courses that aim to arm students with the skill and knowledge in various areas of IT and computer based systems. This is Information Technology Systems (ITS). The study gives students wide career options to choose from.  

The degree offers a complete understanding of IT- right from non technical areas like nature of information and IT needs of an organization, to the software and hardware and multimedia technologies to satisfy these needs, along with developing and managing the skills needed to create computer based systems. Students pursuing a study in ITS should have the ability and aptitude to for creative thinking and effective application of theoretical knowledge. The course offers an understanding of the methods, tools and techniques used in the implementation and management of information products and systems. All students are expected to acquire attitudes such as- being a team player, flexibility and enthusiasm to take up initiatives, innovative and solution driven thinking, professionalism and professional ethics.

Academic Expectations: Students are expected to adhere to the prescribed study hours for learning and activities like attending lectures, group study, assignments etc. Normally students are assessed based on their assignments & examination.

Career Options: Various career opportunities are available for an ITS graduate, within the country as well as overseas. Well trained and skilled IT personnel are always in demand. Jobs in ITS are available in diverse fields like telecommunications, internet, computer hardware and software, networking and multimedia. Such jobs are available in banking, IT industry, pharmaceutical, government, and education and health sectors. Some roles that one can get into are System analyst, business analyst, and multimedia developer and Database administrator.

Course duration: A bachelor’s course is normally 3 yrs full time or 6 yrs part time course. A masters degree in ITS is a one year full-time course, which may also be undertaken in a 2 yrs part time program.

Outcome of Course: The course helps in understanding the importance of information systems thoroughly to achieve organizational goals. One acquires the knowledge of IT procedures and techniques utilized to generate information.  Students gain an in-depth knowledge of the characteristics and capabilities of hardware, which includes operating systems, storage units and more. Students will also learn about security features, various encryptions, restricted access, and controlling information using various identification and authentication methods, along with backup methods and password procedures to ensure complete security of data. 
Course Details:
A bachelors course in ITS normally covers principle fundamentals of information systems and disciple as:
  • Computer programming
  • Data management
  • Computers and networks
  • Systems development
  • Project management
  • System analysis and design
  • Information security
In the first year- students normally study the core concept of information technology and build the foundation for advanced courses in the second year.

A degree in ITS will surely give immense career satisfaction and endless opportunities. It provides graduates with the skills and knowledge they need to succeed, enables students to gain the professional experience to work in a range of business environments.

Study Instrumentation Technology

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Almost all fields of industry have a need for the control of parameters and the maintenance of measurement equipment that are needed for the automation of many different industrial processes. Accurate and reliable measurement readings are vital in any industry because they lead to better quality goods and much more efficient working systems. Thus, it is very important that these aspects of production are addressed with great skill and proficiency. This is the phase of industry that is commanded by Instrumentation Technology.

A course program on instrumentation technology will train future information technology engineers to analyze problems that occur in controls used in various automated manufacturing processes. Topics of study include electronic and pneumatic control systems, diagnosis and adjustment of available control loops, process computers and their applications, programmable logic controllers, and simulation of different types of processes.

Students of instrumentation technology will also be trained to be very proficient in the calibration of modern instrumentation equipment. They will be given hands on training on troubleshooting the many problems that might be suffered by both electronic and electrical instruments and devices. They will also be trained on how to properly maintain these devices to prevent unwanted difficulties from cropping up at inopportune times. Additionally, instrumentation technology students will also be trained to keep pneumatic and hydraulic equipment in very good working condition.

More specific subjects that are covered in an instrumentation technology course include microcomputer applications, DC and AC circuits, solid state circuits, and digital applications. The physics of instrumentation, principles of industrial measurements, applied physics, and Measure control theory are also given due attention. Advanced courses cover major subjects such as digital applications, measurement and flow calibration, health, environment, and safety regulations, analytical instrumentation, and AC and DC motor controls.

Typical companies that employ graduates of instrumentation technology are oil and petroleum producers, electronics manufacturing corporations, pulp and paper companies, chemical companies, pharmaceutical and medical equipment manufacturers, food and beverage producers, utility agencies such as water and electricity companies, car manufacturers, and aerial and aerospace firms.

Among these various fields of industry, the instrumentation technology engineer has many varied responsibilities. Duties may include (1) the design of specific control systems which include determining the size and the appropriate measurement gauges for the system; (2) the recommendation of possible modifications needed to improve measurements and control systems and to implement these recommendations once approved; (3) the programming and configuration of microprocessor based control and measurement systems; and (4) provide technical support for sales representatives of electronics and gadget production companies.

Most instrumentation technology engineers work indoors, especially those that are employed for design projects. Those who are mainly involved in design usually work during standard workday hours, with occasional overtime work done for projects with very tight deadlines. Those who are employed in construction and maintenance projects however will usually get to work outdoors for when they need to be at the construction site or at the processing facility where the projects are located. Instrumentation technology engineers specializing in maintenance are usually on call for when vital systems bog down and need troubleshooting services.

Study Intelligent Systems

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Study Internet Technology

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The influence of Internet Technology is overpowering especially in business, education and the academe, and in everyday aspects of life. With the presence of E-commerce and other e-services fueling various market industries, Internet Technology is indeed an indispensable part of humankind.

Almost four decades ago, the so called “Early Days” of the Internet, the Advanced Research Projects Agency sponsors made a study on “cooperative network of time-sharing computers” which led to the creation of ARPANET. This connection was created for four hosts namely UCLA, UCSB, SRI, and the University of Utah. Using Network Control Program, the four hosts were connected.

Later on, ARPA was changed to Defense Advanced Research Projects Agency, and then, packet switching nodes and internetwork gateways were launched. It was not long when UUCP, developed at AT&T, aided the ability of packets to facilitate the exchange of electronic mails. As history tells, more components where created and established that resulted in retransmission of data until everything was correctly and completely sent and received.

The “Later Days” of the Internet showed the boom in the number of hosts that have registered IP addresses. It was in 1993 when web servers gained popularity as the number of web servers reached 200 in number. By 1999, E-trade, online banking, and the domination of MP3 technology became fully developed and heavily promoted. In 2003, the popularity of blogs and online diaries was so huge and by 2004 there are already 46 million web servers with over 200 million hosts.

At present, more and more business companies demand skilled professionals who have finished Internet Technology courses. They are the perfect candidates for Developers and Administrators positions that are tasked to handle web development applications, databases, programs, and systems that will provide Internet or online services. With their knowledge and skills in revolutionizing new models, updated applications, enhanced web developments, and the latest software and hardware developments, Internet Technology professionals are simply competitive and highly-skilled individuals.

At present, there are already countless and improved techniques in using the Internet and the World Wide Web. Therefore, students who want to take Internet Technology-related courses should be prepared in understanding major protocols needed in internetworking. They should also be taught how to comprehend client-server architecture along with performance of basic web design. Further on, students will unravel the science and technology of basic client programming, server side programming, and other Internet technologies that are worth learning.

A diploma in Internet Technology which is more often called as Web Technology will provide individuals and aspiring professionals with endless opportunities in this technology-driven society. Their internet skills, not to mention their experiences in taking web design courses, will help them enter the field of Internet Technology. With their seamless performance in designing, developing, operating, programming, and managing computer and web systems, they are the ones needed by huge companies and reputable employers that primarily employ Internet Technology.

Internet Technology is a dynamic course that will require its students to continue pursuing the most recent developments that will widen their knowledge and skills when it comes to furthering their expertise in the technology of internet.

Study Lab Technology

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In the most general sense, laboratory technology is the study of handling routine tasks in a medical or scientific laboratory. Most lab technology programs are geared toward one of 2 fields: medical/clinical lab technology (the most common) and biotech lab technology. In either case, students of laboratory technologies are prepared to do fairly similar tasks. They frequently work with biological tissues, study bacterial growth in cultures, and may perform gene sequencing. All of the routine, day-to-day tasks that need to be performed in a medical or scientific laboratory are the purview of a technician with a degree in lab technology.
Personal Qualities
  • Steady hands and the confidence to work with extremely delicate scientific technology
  • Rigorous, logical mind and strong problem-solving ability
  • Passion for medical or scientific research
  • Cleanliness and meticulous organization

Study Options
Lab technology programs almost universally lead to an Associate's Degree rather than a Bachelor's Degree. The advantage of this is that they take only 2 years to complete and are usually much less expensive than four-year degrees. Of course, the eventual careers of those with Associate's Degrees tend to be less lucrative than those with more advanced degrees, but the work is still satisfying and enjoyable.
Although the majority of programs in lab technology are fairly similar, the 2 categories (medical/clinical and biotechnology) differ somewhat. Programs in medical and clinical lab technology focus more on applied knowledge of human biology and techniques for performing a variety of medical tests. Biotech-based programs, on the other hand, often emphasize the more theoretical aspects of cutting-edge scientific research.
Career Options
The majority of lab technology programs are geared towards those who hope to go into the medical field. People who complete these programs typically work in hospital or clinic labs, performing clinical diagnostic tasks on tissue samples. Any time you go to the doctor for blood work, for example, it is a medical lab technician who actually takes the samples and tests them. Being a medical lab technician is a great way to be involved in helping others through medicine, without going all the way to medical school. Those who have a passion for medicine but lack the time or the resources to complete an advanced degree often find that laboratory technology is their ideal field.
In recent years, as biotechnology has become an increasingly important industry in the European and American economies, more and more schools have developed programs for technicians in this area. Biotechnology labs around the world are having a hard time finding qualified technicians to hire, so the job prospects for graduates from these programs are encouraging. This is one of the few lines of work in which the job market has not gotten worse in recent years.

Study Language Technology

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Study Laser and Fibre Optics

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The study of Laser and Fibre Optics has become a formal practice ever since the birth of modern technology. It was then called Photonics, but is latter called Laser and Fibre Optics as scientists and Laser and Fibre Optics experts have integrated the two and made a formal study about both areas.

In pursuit of the study of Laser and Fibre Optics, one must first be aware of what Laser and Fibre Optics are, what their functions are, and what they do to society. To start off, lasers are important means of carrying information in light of their capability to produce higher modulation frequency. While it may seem that whenever the word “laser” is used that it is a word itself, it is actually an acronym for Light Amplification by Stimulated Emission of Radiation. Judging from its meaning we can conclude that these lasers work as a result of resonant effects. In the early times, there were only Ruby lasers then the helium-neon lasers followed. After some time, semi-conductor lasers were invented which evolved into semi-conductor lasers that are employed by fibre optics technology. In fibre optic technology, transmitters are composed of the lasers and the modulators. The lasers create the light and the modulators change the power produced by the laser light to combine the data to be transmitted. In this case, the modulator helps or blocks the light coming from the laser. Lasers help fibre optic technology in areas like data communication and sensing.

In studying Laser and Fibre Optics, one must expect the following course subjects: Electric Circuits and Systems; Digital Circuits; Electronic Communications; Photonics; Applied Optics; Optoelectronics; Laser Electronics; Fibre and Integrated Optics; Regeneration and Wavelength; Transmitters and Receivers; Amplification; Ray and Beam Optics; and Fibre Optics Applications – Bio-Medical, Illumination and Material Processing.

The study of Laser and Fibre Optics can be applied in many fields such as telecommunications, cable television, internet, surgery, diagnosis, military, space activities, and in shops and libraries where scanners with lasers are used. Therefore, there are a lot of job opportunities waiting for graduate students who majored in the said course program. In addition to that, careers in Laser and Fibre Optics are not yet well-known throughout the globe, so those who finished the program are very much in demand. Moreover, as technology continues to innovate and expand, Laser and Fibre Optics technicians are sure to be very much in demand in the next few years. People who have the eye for detail, interested in how things work, enjoy math and science, and likes to work with high technology equipment; then the Laser and Fibre Optics program is just right for you.

As Laser and Fibre Optics technicians, these people are responsible for (1) building and testing laser and fibre optics equipment for research, medicine, and manufacturing; (2) troubleshooting optical systems including that of LEDs; (3) installing and repairing laser and fibre optics equipment; and (4)building and analyzing the latest and up-to-date laser and fibre optics equipment for telecommunications and networking.

Study Laser Technology

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From cell phones to smart bombs, lasers play a prominent role in a variety of modern technologies. Designing, maintaining, repairing, and improving laser-driven technology is a complex task for engineers and technicians, and is a great way to leave your mark on cutting-edge technology. Applied optics and laser technology, like most fields in engineering technology, typically leads to jobs as a technician. These individuals assist engineers in industry, academia, or private laboratories.
Personal Qualities
  • Methodical, systematic way of thinking
  • Problem-solving skills and strong mathematical ability
  • Patience and diligence, ability to work on a single project for an extended period of time
  • Fascination with high-tech gadgets and devices
  • Steady hand and ability to work with extremely delicate technology
Study Options
Studying applied optics and laser technology generally leads to an Associates Degree. At the Bachelor’s level or beyond, most students in this field will be in programs with names like “optical engineering” or simply “optics” rather than laser technology. An Associates Degree program in laser technology is an excellent, and usually fairly quick, way to get into the field, and involves focused coursework that emphasizes real-world applications. For those who want to continue their studies at four-year colleges or in grad school, it’s important to gain a solid base in physics and math, as advanced degrees in optics are usually more theoretical and less applied.
Studying applied optics and laser technology is a great way to get your degree quickly and get out into the workforce. While engineers and those with more advanced degrees typically have more lucrative jobs, they also have to commit considerably more time and money up front. If several years of advanced schooling is unappealing or unfeasible for you, then an Associates Degree in applied optics and laser technology is a good bet.
Career Options
Due to the large number and variety of technologies that rely on lasers, there are numerous industries where optical and laser technicians can find employment. Consumer electronics and entertainment, for example, is an industry that has a rapidly-growing need for laser technicians and optics experts. Similarly, retail businesses are finding numerous uses for lasers, including product scanners and innovative store displays. Of course, defense and physics research are also possibilities for the most well-qualified technicians.
Regardless of the industry, the job of a laser technician is usually fairly uniform: they assist engineers and research scientists in building and testing experimental laser systems, and using the findings to design more efficient or effective products. They work closely with top experts in the field, and their innovations can create major changes in the ever-evolving world of advanced technology.

Study Machine Technology

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Study Maintenance Technology

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Study Manufacturing Engineering Technology

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A Bachelor of Science degree in Manufacturing Engineering Technology is designed to prepare students to work in and support manufacturing operations throughout the country—operations in which engineers create plans and projects and present them to mid-management personnel, who must then carry out the planning, organization and delivery of those manufacturing projects.  The curriculum in this popular major features a strong emphasis on manufacturing, automation and the metals-oriented industries.  Students pursuing this degree have the unique opportunity to prepare for mid-management and supervisory positions in manufacturing centers, as well as technical positions, sales, service and research.
Bachelor of Science Degree in Manufacturing Engineering Technology

The Bachelor of Science Degree in Manufacturing Engineering Technology is a four-year program (eight semesters) now offered by countless colleges and universities.  To be considered for admission students must possess a high school diploma or the equivalent and have a fairly strong background in mathematics, science and technology, as many institutions require a passing score on an entrance examination prior to admission.

In the initial two years of the program, general education courses are typically the focus, including classes such as college algebra and trigonometry; English composition; information, technology and society; macroeconomics, statistics; physics, speech; and elective courses in the humanities.  The final two years consist primarily of upper-division coursework—classes directly related to Manufacturing, Engineering Technology.  Some of these courses include:
  • Mill and Lathe applications
  • Occupational safety
  • Basic machine tool programming
  • Metrology/Quality control
  • CNC programming and machining
  • Electrical discharge machining
  • Abrasive machining and heat treatment
  • Manufacturing process and organization
  • Introduction to metallurgy
  • Robotic applications
  • Industrial electronics and applications
  • And many more…
Those who graduate with a Bachelor of Science in Manufacturing Engineering Technology are expected to be able to:
  • Solve manufacturing issues utilizing computer hardware and software.
  • Solve manufacturing problems using scientific principles and methods
  • Analyze and solve manufacturing issues of an economic, technical, organization, and design variety.
  • Seek out and recommend solutions of manufacturing problems of the moral, ethical, and legal nature.
  • Ensure quality assurance in the workplace and recommend systems, procedures, and techniques to meet quality standards.
  • Program computers, CNC machines and other automated manufacturing equipment.
  • Work closely with an industrial design team in the design, redesign, and upgrade of products to achieve improved manufacturability, aesthetics, and function.
  • Demonstrate specific skills and knowledge of tools, equipment, systems, materials, processes, and procedures to solve manufacturing and production problems.
  • Schedule, organize, and carry out engineering technology projects under supervision.
  • Demonstrate skill and knowledge in the selection and use of appropriate materials.
  • Demonstrate leadership skills, ethical behavior, and knowledge of management dynamics.
  • Demonstrate knowledge of the organization and its functions in a manufacturing setting.
A Bachelor of Science degree in Manufacturing Engineering Technology is a great first step towards landing an exciting and lucrative career position in this growing field, giving you the knowledge and skills to perform well in a variety of functions within a manufacturing center. Graduates of the B.S. program in Manufacturing Engineering Technology go on to fill a variety of roles, including manufacturing engineering technologists, manufacturing management professionals, manufacturing process engineering technologists, line supervisors, research and development technologists, industrial/technical representatives, industrial/technical sales positions and production technologists.   
Career Opportunities

Manufacturing engineering technologist, manufacturing management, manufacturing process engineering technologist, line supervisor, research and development technologist, industrial/technical representative, industrial/technical sales, production technologist.

Study Maritime Transportation

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Maritime transportation actually means water transportation, and is involved with the movement of significant amounts of cargo or passengers between countries and continents through the use of merchant ships, tugboats, ferries, barges, offshore supply vessels, cruise ships, etc. This suggests that a degree related to maritime transportation would equip you with the skills to operate, maintain or manage such a waterborne craft.

Workers engaged in maritime transportation can either supervise the operation of the vessel, or take full command of it. These workers have to ensure that all procedures and safety measures are followed, as well as regularly check whether equipment and machinery are in good order. They are also responsible for managing the movement of cargo and passengers from and to the ship, ferry, etc.  Another responsibility maritime workers have is to keep logs and control pollution caused, while the captain also decides on the speed and direction of the vessel.

Personal Qualities

Very organized personality, able to follow direction and work under pressure would suit such a profession. Other qualities include:

  • A love of sea travel, as most of the time will be spent off-board
  • Good attention to detail
  • Time-management skills
  • Ability to solve problems under pressure
  • Great physical condition
  • Willingness to stay away from home for long periods of time

Study Options

There are two ways you can go if you wish to be involved in maritime transportation. One is to be an ordinary seaman, or a deckhand, for which occupations you do not need any specific qualification. Normally only a few days of training are required, including first aid and firefighting.

On the other hand, if you are aiming at higher-paid jobs, such as deck officer, engineer, or even captain, you would need to graduate from a maritime academy. The academies normally offer a four-year education, which results in a Bachelor of Science degree and a license as a third mate, or a third engineer. In order to achieve more advanced positions, a great number of years experience is required, and possibly further education.

Career Options

The career outlook for jobs in maritime transportation is very good, and the number of jobs offered is expected to grow above average. Just so you have an idea, a typical deep-sea merchant ship has a captain, three deck officers or mates, a chief engineer, and three assistant engineers. To give you a fuller picture of what you could do, the occupation of ship engineers involves the repair, maintenance and constant observation of engines, boilers, generators, pumps, and other machinery. The captain and the mates constantly employ charts and navigation aids to determine the direction and speed of the vessel. In such a case, you would also be responsible to manage the cargo loads and ensure that they are placed according to regulations. On the other hand, the occupation of the pilot is to guide ships in and out of harbors, while sailors and deckhands take care of the deck equipment and over watch for other vessels.

Study Mechanical Drafting

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Study Mechanical Engineering Technology

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Study Mechatronics

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Study Media Technology

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To get to your market, you need to establish an effective communication with them. Costumers, government and its networks, companies, organizations, and the industry in its entirety are the driving forces in delivering valuable information that need to be disseminated. In these times of advancement, such kind of information carries not just simple texts, but messages that contain photos, sounds, videos, and websites which are mostly digitally presented.

The Media Technology course, a computer program, aims to let students learn to master relevant and complimentary computer-based technologies needed in sending and delivering digital media. Though the traditional media industry is becoming unpopular, its influence in many organizations and companies’ marketing developments and strategies is still immense because important sources needed in digital media are still linked to traditional media.

Media Technologies are dynamic, constantly evolving, and changing the way marketers and business people treat and perceive their market. With the presence of sophisticated, digital cinema, video-augmented environments, broadband wireless networks, and virtual reality, Media Technology paves way to more compelling life-changing experiences that are being employed by broadcasters, entertainment creators, publishers, and marketers to creatively and effectively unleash the power of electronic technologies.

Students will enjoy seamless opportunities once they take a hold of a degree in Media Technology since the demand for expertise in this field is virtually huge. In fact, their understanding of software, hardware, programs, and systems is no longer a deciding factor in becoming qualified to any media technology-related profession. What is being looked for is their ability to be creative in utilizing applications of systems being employed by business firms and organizations.

As they take the course, they become skilled media practitioners who are able to design programs needed in various media to make systems more sophisticated.

In this age of revolutionizing technologies, students are either compelled or impelled to acquire new skills that will meet new demands. Media systems are eternally moving forward and with its fast-paced advancement, students should gain wider appreciation and greater knowledge of how they can fully utilize and maximize Media Technology using high-powered and progressive means.

The rigorous professional education that Media Technology students can acquire can be extended to knowledge acquisition that is also related to electronic engineering without setting aside the traditional systems that have been employed beforehand. As the industry continues to set higher standards in terms of interactive or digital media through creative ways, students acquire more integrated views specifically in content delivery through phone networks including virtual reality simulations that offer complete immersion.

During the course study, students will not just be directed toward eventually earning their degree but in becoming flexible future professionals. As they complete the course and start their career in Media Technology they are expected to have a very good understanding of the media industry and the challenges that surround it. With their knowledge in using technologies and its digital media tools, students become capable of producing, processing, distributing, and retrieving digital media that primarily provides the needs of users and the society from which they belong.

Study Medical Laboratory Technology

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Study Micro Systems Technology

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Study Microcomputer Systems Technology

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Study Microelectronics

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Study Military Science

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RussiaThe United States

Study Minerallurgy

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Study Nanoelectronics

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Study Nanotechnology

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Are you interested in an exciting and fast-paced career in the field of Nanotechnology? Have you researched the various branches of nanotechnology; the number of disciplines now incorporating the practice into their work?  The term nanotechnology has only been in existence since the 1980s, coined by a researcher named K. Eric Drexler as a way to explain the possibility of building machines and other devices on the scale of molecules—just a few “nanometers” wide—including motors, robotic arms and even entire computer systems, far smaller than a single cell.  This term has now become commonplace in the scientific arena and is used to describe academic programs at the undergraduate, graduate and post-graduate degree levels that can benefit from nanotechnology, particularly in the fields of medicine, engineering and physics.  To allow you to become a bit more familiar with Nanotechnology degrees, below we briefly explain the focus of these types of studies, the branches of science and engineering in which the technology is used, and a sample of the coursework involved in each of these disciplines.
Nanotechnology Degrees
Nanotechnology can be defined as the engineering of functional systems at the molecular scale. This covers both current work and concepts that are more advanced. In its original sense, 'nanotechnology' refers to the projected ability to construct items from the bottom up, using techniques and tools being developed today to make complete, high performance products.
There are many degree programs now in existence that include nanotechnology as a specialty in which students can place their focus.  Most of these are graduate (Master’s) and post graduate (PhD) degree programs, although some institutions do offer nanotechnology at the undergraduate level for exceptional students.  Some of the academic disciplines that now incorporate nanotechnology into their degree programs include chemical, biomedical and materials engineering; chemistry and chemical biology; civil, environmental and ocean engineering; mechanical engineering; and physics and engineering physics, just to name a few.  Below is just a sample of some of the coursework within each of these branches of study:
Chemical, Biomedical, and Materials Engineering
  • Fabrication Techniques for Micro and Nano Devices
  • Micro-chemical Systems
  • Bio/Nano Photonics
  • Colloids and Interfacial Phenomena at the Nano-scale
  • Nano-particulate Synthesis, Processing and Applications
  • Nano-catalysis
  • Cr ystallization of Biological Molecules
  • Principles of Inorganic Materials Synthesis
  • Nano-medicine
  • Tissue Engineering
  • Nano-biotechnology
  • Advanced Biomaterials
Chemistry and Chemical Biology
  • Polymers at Solid-Liquid Interfaces
  • Polymer Functionality
  • Cellular Signal Transduction         &n bsp;     
Civil, Environmental, and Ocean Engineering
  • Health and Environmental Effects of Nanotechnology
  • Multi-scale Mechanics and Computational Modeling
  • Environmental Chemistry
  • Physicochemical Processes for Environmental Control
Mechanical Engineering
  • Mechanics at the Nano- and Micro-Scale
  • Design and Fabrication of Nano and Micro-electromechanical Systems
  • Multi-Scale System Design
  • Principles of Ultra-precision Engineering
Physics and Engineering Physics
  • Physics and Applications of Semiconductor Nanostructures
  • The Physics of Nanostructures
Careers Opportunities in Nanotechnology

From designing tiny medical diagnostic devices to enhancing energy efficient windows, the field of Nanotechnology offers a wealth of potential career opportunities for qualified graduates. Below is just a small sample of the industries now using nano-scale science and technology—industries in which specialists are in consistent demand:
  • Electronics/semiconductor industry
  • Materials science including textiles, polymers, packaging, among other
  • Auto and aerospace industries
  • Sports equipment
  • Pharmaceuticals including drug delivery, cosmetics, among others
  • Biotechnology
  • Medical fields
  • Optoelectronics
  • Environ mental monitoring and control
  • Food science including quality control and packaging
  • Forensics
  • University and federal lab research
  • National security
  • Military
  • And many more
As the science of nanotechnology continues to grow, impacting our daily lives and changing the way products are made, the number of career prospects for those well-versed in the science will continue to skyrocket.  Experts predict that by 2015 nearly 2 million nanotechnology workers will be needed throughout the world, particularly in the United States, Asia and Europe, and an additional five million support positions will also be created during that same timeframe.

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Study Nuclear Medicine Technology

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Study Occupational Technology

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Study Office Systems Technology

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Study Oil and Gas Technology

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The economic principle that resources are in scarce extends on fuel deposits, too. As a matter of fact, the International Energy Agency contended that oil and gas shortage can possibly take place in 2012 should there be no strict policies against extravagant consumption. No wonder, the Organization of Petroleum Exporting Countries is under tight pressure to respond on the growing demands against probability of limited supply. Worst, it might lead to an energy crisis without solid measures implemented since its forecast in 2007. All these and more comprise the extensive scope of oil and gas technology studies.

Petroleum has played a significant role in the rise of civilizations. Utility of oil and gas dates back 5,000 years ago when early humans needed a dose of fuel to make fire. Specifically, historical records revealed the use of this energy in ancient China and Persia. In particular, the 8th century commenced the trade of petroleum products in Baghdad with the active production of tar. Later on, exploitation of this popular energy source took place attributed to the growth of the industry. In turn, it did not evade getting noticed by great explorers such as Al-Masudi and Marco Polo, thereafter.

Oil and gas technology has been revolutionized through the initial efforts of Edwin Drake. Oil and water properties segregation as well as large quantity oil production comprise his infamous brainchild. His humble beginnings of drilling 71-feet excavation progressively increased through the years of innovation reaching over seven miles down under. In the same way, exploitation coverage reached the Middle East from its humble beginnings in Imperial Russia producing 3,500-ton oil. Along with the development of fuel sourcing and processing comes the development of fuel conservation and sustainability. As a result, research and development teams likewise innovates technologies to optimize these resources while reducing waste.

In view of the international petroleum issues, the academe offers relevant course programs to produce experts on oil and gas technology. These include graduate programs such as Oil and Gas Engineering, Petroleum Engineering, and Oil and Gas Operations. Furthermore, undergraduate programs available are Master’s Degree on Oil and Gas Engineering, Master of Science in Oil and Gas Engineering, and Master of Science in Oil and Gas Technology. What is even more interesting is that all these are accessible in universities worldwide such as in America (Missouri University of Science and Technology, New Mexico Institute of Mining and Technology, and New York University), Europe (European School of Management and Technology and Greenwich School of Management), and Asia (Curtin University of Technology, National University of Singapore, and University of Tokyo).

In a special manner, oil and gas technology expertise is undoubtedly in demand. Basically, it is attributed to the growing concern on sustainable fuel production and preservation. Excellent area of employment for specialists on this particular field is the petroleum industry which is an inimical part of every society all over the globe. In fact, competent experts are being hired by top companies such as National Iranian Oil Company, Saudi Arabian Oil Company, and Qatar General Petroleum Corporation. Similarly, government agencies are in need of petroleum experts especially on public inquiry significant in formulating policies. No doubt, oil and gas technology specialists can land jobs both in public and private institutions.

Study Operations Management Technology

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Management of process developments, new products and services, and technological advancements requires broad knowledge in manufacturing and service operations. The study of Operations Management Technology highlights the essentials of operations management theories, strategies, and practices that involve other diverse disciplinary backgrounds. Such include the studies of economics, engineering, materials science, operations research, psychology, sociology, and physics. With integrated disciplined-based methodologies, students taking the study gain not just relevant managerial perspectives but powerful field-based and problem-oriented approaches.

Moreover, the study deals with diversified research themes that focuses on problem solving and integration of business operations using statistical applications. Organizations that aim to increase output and operational efficiency resort to designing and analyzing opportunities that will give the organization solid foundation in creating and innovating values in various technological means.

The education earned by students taking up Operations Management Technology is characterized as a field of study capable of discovering, developing, and validating contemporary principles, theories, and methods needed in advancing information and technological processes. With this description, the students are being prepared not just to become highly qualified supervisors and managers but skillful and effective professionals who can manage to take responsibilities in industry, public service, manufacturing, and other organizational services.

Professionals with a degree in Operations Management Technology have extremely sophisticated skills that make them competitive in various fields. With their understanding and control of concepts and skills in facing business problems, they can leverage high-performance operating systems. More so, they can provide, create and establish sales strategies that will help the organization make reliable forecasting.

Driving employees toward quality and sound decision-making is another strength managers and supervisors will possess after taking the course. The participation of employees in delivering better products and services efficiently to the market is greatly influenced by their leaders as a result of their expertise in strategic management.

The rapidly changing business environment is a result of industrial revolution. The innovative paradigms that have evolved from emerging and developing patterns are created and founded from the presence and growth of information technology. This way, organizational output becomes profitable and business operations are delivered efficiently. Organization’s operational systems, methods, and projects are handled using statistical operations because graduates of Operations Management Technology are able to analyze and evaluate business processes and gain control of them.

The technical courses under the course involve operations management needed in controlling the design and enhancement of the production systems that will produce primary products and services provided by the organization. Another technical course is linked to process analysis and control that will assess, solve, and control, the efficient flow of products and services by work operations. The statistical process control is also covered by the course as it deals with application of statistics and probability of controlling problems related to cost management, revenue predictions, budgeting, accounting, and internal accounting procedures.

The study will indeed help students gain an in-depth understanding of how complex business problems and solutions can be. With the right education and skills, everything in Operations Management Technology will be addressed in an optimal manner.

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Study Petroleum Technology

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Study Physical Electronics

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Study Plastics Engineering Technology

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Study Plastics Technology

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Study Polymer Technology

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The word “polymer” has, through the years, become synonymous with the word “plastic.” Polymer, however, actually refers to a class of materials that can be natural and synthetic and have different properties but share the same molecular composition. Natural polymers such as amber, shellac, cellulose, and natural rubber have existed even before human history and have been used for many centuries. Proteins and nucleic acid are also considered natural polymers; they are called bio-polymers and are a crucial part in many biological processes. Neoprene, nylon, synthetic rubber, PVC, polystyrene, polyethylene, silicone, and polyacrylonitrile are but a few examples of synthetic polymers often used as materials in manufacturing products such as pipes.

The history of the development of polymer started in 1811 with Henri Braconnot’s works in derivative cellulose compounds. Braconnot’s works were the first significant works in polymer science. Vulcanization later came in the 19th century. This process of improving natural rubber signaled the popularization of semi-synthetic polymers. It was not until the 1970 however that the first completely synthetic polymer, Bakelite, was created. Leo Baekeland successfully created this polymer with the reaction of phenol and formaldehyde exposed in controlled temperature and pressure. Bakelite was introduced publicly in 1909. With the development of other synthetic polymers such as nylon, Teflon, silicone, and polyethylene, the polymer industry began to flourish. Synthetic polymers were mass produced and created using scaled organic techniques. These polymers are often used as adhesives, lubricants, and components for making products such as toys, pipes, and even aircrafts. They are also used in many biomedical applications like implantable devices and controlled drug delivery. Polymers are also used as materials for making semiconductors, microprocessors, and organic light-emitting diodes used for electronic displays.

With the aforementioned purposes of both natural and synthetic polymers, it is no surprise that Polymer Technology is a popular program among those who are interested in joining the manufacturing industry, those who already have a background in science but want to specialize in plastic and polymer studies, and for those who are already in the Polymer Industry but want to gain additional theoretical and technical knowledge. Upon taking this program, students will gain the necessary expertise in polymers such as plastics, rubbers, and composites. They will learn about the structural and chemical properties of polymers, the different techniques in processing plastics, and about rheology or the study of deformation and flow of matter. They will also learn about adhesive bonding, and rubber compounding and processing. Polymer Technology, however, is often offered as a post-graduate program and students are required to have either a degree or equivalent subjects in related science or engineering. Students can also take this program if they have enough relevant industrial experience as an alternative for academic qualifications.

There are many career opportunities that are available for students who successfully finished this program. These are some of the job opportunities that require technical knowledge in polymers: materials & surface science research, polymer chemist, biomedical engineer, device scientist, and research scientist—photovoltaics.

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Study Printing Technology

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It was in Ancient China that Printing Technology began in the form of woodblock printing. The early Chinese used this printing technique to print texts, images, and patterns on textiles and, later, on paper. Early Egyptians and Japanese also used this kind of printing technique as well as in Mesopotamia although the Mesopotamian civilization used cylinder seals which were rolled on clay tablets. The earliest traces of printing to survive up to this day was from China, dated before 220 BC, and was composed of flowers in the three colors of the Han dynasty printed on silk. It was not until the mid-century in Europe did the movable type of printing press was conceived in 1439 by Johannes Gutenberg of Mainz, Germany. The movable type was greater both in speed and durability compared to woodblock printing which was the reason why it quickly spread all throughout Europe, resulting to the Renaissance. Gutenberg was also to be credited for his idea of using oil-based ink to replace water-based ones. With the invention of the printing press, knowledge was easily spread through books and communication became a lot easier.

Printing Technology is a program that helps students gain the needed skills to plan, prepare, and complete print jobs. Students will also gain skills in assembling film, operating printing equipment, and cutting and collating finished products. This two-year long program is perfect for students who want to pursue a higher degree in Printing Technology as well as those who are interested in the printing industry. After finishing this program, students will be able to design and prepare the copy for publication, utilize computer publishing software, decide and apply appropriate color theory to the design and copy for publication, bind and finish a printed document, and also to manage technical workers.

Printing Technology greatly improved as time passed with the development of high-tech products, however, its purpose remained the same: to produce or reproduce texts and images to make knowledge and communication more tangible; which is why commercial printing is one of the largest industries in the world. Having great knowledge and technical skills in a large industry such as this, graduates of this program have a lot of career paths to follow including, but not limited to, camera operators, design printing machine setters, set-up operators, dot etchers, electronic masking system operators, printing press machine operators & tenders, job printers, and precision printing workshop.

Study Product Design

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Individuals interested in applying their ideas, inventions or theories to future marketable products hold a future in product design. This field of study covers the processes behind creating and perfecting new or improved products, from the planning stages to prototyping. It grooms students mainly for work in industrial areas, with employment ranging from research to marketing.
The main way to pursue a study in product design is to attend a college, university or technical school. Some art institutes will also provide degrees in product design. Candidates can earn an associate, bachelor or master’s degree, though. Remember that higher education institutions will not always offer product design degrees specifically, but a closely related industrial design degree.
Some industries will provide internships for interested candidates in certain fields of product design, while other companies provide training programs and apprenticeships for future or current employees. Workshops, summer courses and even study abroad programs are also available for study in product design.
Skills, Qualifications, and Prerequisites for Studies in Product Design
Studying product design typically means attending a college, university, technical school or art institute. This means candidates must meet the admissions requirements to these institutions. This typically means that students must hold a secondary school completion certificate, or pass some form of standardized aptitude test or entrance exam.
Internships and apprenticeships usually require candidates to already hold a degree, currently be attending school or attending classes along with the program. Workshops may not have any of these prerequisites, but they also grant no certifications or degrees.
Ideal candidates should display excellent business skills along with the ability to identify and relate to target audiences or consumer needs. They must be highly developed problem-solvers, innovative thinkers and comprehensive listeners. A solid base in mathematics and art (such as architecture or design) is preferred.
Other qualities beneficial to a future product designer include:
  • Comfort with presentation and public speaking.
  • Ability to communicate ideas effectively.
  • Ability to work well on a team.
  • Creative, imaginative and fast-learning
Skills and Qualifications Acquired from Studies in Product Design
Once candidates have completed a course of study in product design, they will be able to:
  • Use design programs and technology.
  • Understand manufacturing techniques and procedures.
  • Market products effectively.
  • Employ effective and productive business practices.
  • Identify production materials and processes.
  • Safety standards, laws and regulations.
  • Ethical and environmental standards, laws and regulations.
  • Research, analyze, and develop new product ideas.
  • Develop product proposals, sketches, drafts, models, and prototypes.
  • Research graphing, data recording and basic statistics.
  • Problem-solving techniques.
Students may also pursue additional courses in specialized fields, such as electronics, computers or raw materials.
Careers for Studies in Product Design
Product and design engineers are highly desired in many types of employment due to their creative minds and problem-solving skills. Automotive, software, entertainment, furniture, technology, food and beverage, electrical, fashion, and any other company distributing consumer products is likely to employ product designers. Designers in these fields often work on development teams for commercial and industrial corporations. Product designers can also start their own companies, work as consultants, teach at multiple educational levels, or (in some cases) become independent inventors.

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Study Sensor Technology

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Sensor technology is one area of study that hasn’t been tapped to the fullest. It may have been overshadowed by the onset of computers and it’s various applications but still no one can deny what sensor technology can really do if utilized to its full potential. Perhaps, the most commonly observed sensor technology is the one that detects the absence of sunlight that when the sun is about to set and ambient light becomes dimmer, and at a certain level of dimness, activates the photocells on the streetlights to turn it on automatically. Sensor technology is also the one to be credited for stopping fires from going out of control as it activates the sprinkler systems inside buildings and structures. In the movies, we see sensor technology used for safeguarding valuable items like priceless paintings and famous jewelries in a museum by turning on alarms connected to police stations. When an alarm bleeps on the police station, they would know that an intruder has entered the premises that house the valuable items.

Actually, sensors has been in used on various human endeavors but are they really limited to fire prevention, deterrent to burglary or lighting streets? For all it’s worth, sensor technology is perhaps in its infancy stage and that many more time saving devices could be brought forth by people who would take time to study the field of Sensor Technology.

Perhaps, when it came out back then, computer technology was not that advanced yet and so it had to take a back seat as the development of computers took center stage. But now, students of sensor technology would have limitless potential too as they could also tap advances made in the computer technology. Generally, Sensor Technology is a broad field as light, pressure, motion, temperature, humidity, electricity, sound, vibration and anything that may become a trigger for an electronic device would fall into their area of study.

Naturally, this course would be largely based on concepts of physics, mathematics, chemistry, mechanical engineering, electrical engineering and also computer science. Apart from the theoretical aspect of it, students of Sensor Technology would be exposed to a lot of instrumentation topics with emphasis on actuators and silicon microchip sensors. Students would also be familiarized with operation and handling of ultrasonic transducers. Modern courses now also include investigation and identification of signal processing methods through the use of computer programs.

Since this is a highly specialized area of study, this would not be an undergraduate course but rather a postgraduate course for engineering and allied courses like applied physics and applied chemistry. Other requirement for this course are at least a 6.5 score in their IELTS, 600 for TOEFL.

Opportunities for sensor technology graduates would be a lot as there are many technology based companies out there or they could start their own company since most likely graduates of this course are capable of coming up with new products. Among the fields that would be very much in need of sensor technologists are petroleum related companies, biotech companies and clinical medicine-based companies, auto manufacturers and other companies that may need lots of instrumentations.

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Study Spatial Information Technology

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Have you recently completed an undergraduate program, earning a Bachelor of Science degree in a field such as Information Systems, Geology or Engineering?  Are you thinking about advancing your education, perhaps to gain more knowledge and experience in your field and to make yourself more marketable from an employment standpoint?  If you answered yes to these two questions, you may be an ideal candidate for the Master of Science Degree program in Spatial Information Technology.  To give you an idea about what this degree entails, below we will highlight some of the background information with regards to the Master of Science Degree in Spatial Information Technology, including a brief description of the program, the rationale behind earning the degree and the minimum eligibility requirements for admission into the program.
Master of Science Degree in Spatial Information Technology:  General Description and Requirements
The Master of Science Degree in Spatial Information Technology is an interdisciplinary program, offered by the Graduate School of Technology in a number of colleges and universities throughout the country.  In addition to the core requirements students must take in disciplines such as Information Technology and Information Systems, the program also offers a number of elective courses which allow students to focus on their key areas of interest—areas in which a knowledge of Spatial Information Technology is essential.  These elective courses are contributed by a number of different departments, including the departments of Engineering, (particularly Survey Engineering and Mining Engineering), Mathematics, Geology, Forest Resources, and Environmental Science, among others.
The coursework for the M.S. degree program in Spatial Information Technology aims to provide students with an expertise in one of the two main areas of the field:  terrestrial remote sensing and geographic information systems (GIS).  The program, which typically spans two years or four full semesters, requires approximately 36 credit hours beyond the bachelor’s degree. In addition to the traditional classroom experience, the program also involves outside projects, internships and applied research within the students’ areas of interest. Once students successfully complete the coursework they will be required to develop and present a thesis to the faculty, although some institutions will also allow a capstone project report or comprehensive examination as an alternative to the thesis. 
Students who wish to pursue a Master of Science Degree in Spatial Information Technology must have at least a bachelor degree in a relevant field, with a 3.0 grade point average in all core and elective coursework.  Depending on the institution, an entrance examination and an interview with the faculty may also be required prior to admittance.
Why Pursue a Master of Science Degree in Spatial Information Technology?
The Master of Science Degree in Spatial Information Technology is a highly specialized program, one in which students receive the knowledge and experience working with technologies such as GIS, remote sensing, digital image processing, photogrammetry and cartography.  Graduates who have background working with these types of measurement and analysis tools are highly sought in a number of different employment sectors, including fields such as forestry, wildlife management, environmental and civil engineering, volcanology, geology and geophysics, regional planning, surveying and archaeology.  There is currently a shortage of personnel in all of the above-named professions, and according to the U.S. Department of Labor, the number of jobs involving Spatial Information Technology is expected to increase by more than 20% in the next several years.

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Study Surveying Technology

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Study Technical Report Writing

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The background of education needed in technical writing is tough, due to the natural intricacy of the profession. It could be fairly hard to create a technical report however with the proper knowledge and research of the fundamental report formats, you will be on your road to writing an excellent technical report. If you take pleasure in reading as well as writing, a Technical Report Writing education could set you up for an exhilarating career as an editor, technical writer or proof-reader.

Who are allowed to take the course?

The course is appropriate for individuals who need to report on the technical phases of their career. Some individuals normally need to go off site to deal with technical difficulties and should note and document all of the technical verdicts. All workforces concerned in technical report writing such as engineering, laboratory, R&D experts, quality and materials will as well benefit from involving into such program.

Technical Report Writing course includes detailed features of how to gather and write a good technical report. The proposals offered in the programs may be used, regardless if you are writing a one-page report, or a multi-number research. Technical reports must have a precise reason and a particular addressee. If you clearly know the reason for your writing and who will read them, you can have a basis for the report plan. Your addressee, and their requirements, should stay at the front of your thoughts. In many groups, the audience or the addressee is a wide range of individuals. A few of your projected readers might be familiar to your while other might not. The moment you have recognized the reason of your writing, you have to evaluate you audience to your best ability. The program will recommend several means to perform this, in an orderly and self explanatory format. The program goes into a factor that enables trainees to construct a report, arrange the information and recognize under which headline the information fits in. This will make sure that an understandable, brief, and well-made report is presented.

Program Objectives

  • To examine the various types of reports used
  • To expand a constructive report approach
  • To successfully design and construct technical reports
  • To make sure that reports are in order, coherent, and communicative
  • To classify and acquire the precise information for insertion in reports
  • To provide an obvious perceptive of the various section inside reports
  • To know the effective ways to present graphical statistics
  • To have the ability to visibly examine results, in order to write ideal recommendations

What can you obtain from the Technical Report Writing program?

Excellent technical report writing generates business reports that are clear and comprehensible. Reports are vital ingredients of contemporary business but far too many create dismal reading and waste money and time for everybody. They are usually badly structured, include too many information and employ anything but simple English. The program will give you a more obvious understanding on how to recognize the applicable information and how to employ proficient language, by being brief, clear and succinct.

Job positions for Technical Report Writing:

Technical Writer

A Technical Writer writes communication from developers of products for end users. The users may compose of the consumers, engineers, scientists, line workers, plant executives as well as production managers. A Technical Writer should write in a succinct and readable way for consumer journals or in vastly dedicated language for professionals. With the augmented use of desktop publishing, a Technical Writer is most of the time liable for the publication procedure which includes document design, graphics and layout.

Technical Writers make articles, assembly instructions, brochures, catalogs, help system, maintenance manuals, multimedia presentations, online documentation, part lists, product instructions, project proposals, sales promotion materials, training materials, reference and web pages.

A Technical Writer does the following responsibilities:

  • Examines the requirements of the intended audience.

  • Study information and perform thorough interviews with topics proficient to understand the procedure or product.

  • File and annotate documents like manuals and bulletins.

  • Create or organize for illustrations, photographs and charts to be incorporated in publications.

  • Correct, regulate or improve material made by other employee or writers.

  • Prepare deigns of materials to be used in publication.

  • Make outlines of the publication to be employed for review with the project employees and/or clients.

  • Make and correct web pages for intranets, extranets and internets.

Technical Writers normally specialize in a particular industry like manufacturing, computers, telecommunications, pharmaceuticals, health care and agriculture. Within their preferred industry, most of the Technical Writers will specialize even further. For instance in the industry of computer, the writer may specialize in user manuals, tutorials or software documentation.

Some companies would only hire a Technical Writer who specializes in a single field of technology. Most employers choose applicants who possess a four-year college degree in engineering, communication, journalisms or those with certificate or degree in technical report writing. They should also have a concrete background on the industry that they want to consider as their specialty. Completion of a certificate or degree in technical writing can be very useful and can be achieved in community schools and university that offers continuing education courses. Some employers would require a concrete background in technical skills and experience along with writing proficiencies.

Increasingly, businesses need Technical Writers who are knowledgeable in desktop publishing, which includes multimedia production as well as computer graphics. Just years ago, computer skills was only considered an asset while these days it is already a requirement. Various Technical Writers might be required to accustomed and understand program terminologies. Most of the time, beginners are assisted by experienced Technical Writers and might perform library research, make reports or rough drafts or make basic editing.

Most commonly, a Technical Writer make use of a job title for such profession. Other job titles are communication specialist, proposal writer, publication specialist, medical writer, documentation specialist, health writer, technical editor, information designer, and science writer. The average hourly rate for a Technical Writer in the United States, particularly in the State of California is $28.66 and $59,612 in a year.


Perhaps you are aware that editors and writers write. Writers create stories and they write on things that actually happened. They make books and they write pieces for journals or magazines. They write for broadsheets and they also write items to be featured in television and radio. Editors inform writers what they should write on. Also, they make a decision on whether a written article or story is good or otherwise. It if it isn’t good enough, they would change some of the words to create an even better content. When a Writer starts to write, he or she collects information. The information might be gathered by merely looking or researching at the library. The Writer can also interview someone for additional information. Normally, Writers write on something and then later on change it over and over again. They keep on changing their contents until they feel comfortable and they think that they already get it correctly.

There are various types of Writers. There’s the News Writer who writes for broadsheets or news broadcasts. There is also the columnist who writes about places, things and people. Also, Editorial Writer who writes on things based on their feelings. Another is the Technical Writer who provides orders on how to employ a machine or do something. And lastly, there is the Copywriter who writes ads.

Editors also write. They as well, rewrite, review and alter the words of the writers. However, their most significant task is to plan the contents to be placed in newspapers, books or magazines. They will decide on what to publish based on what they think readers would love. They normally assign topics or issues to writers. They ensure that the newspaper, magazine or book comes out promptly.

Editors need individuals who will assist them in performing their jobs. These employees are called editorial assistants. They are also referred to as production assistants or copy editors. They correct mistakes in punctuations, spelling and grammar. They ensure that a magazine or book is correct and readable. Majority of Writers as well as Editors utilize computers that can facilitate them in doing their task. Most Writers and Editors work in peaceful offices while some prefer to work in noisy places. Some of them need to travel while others simply need to converse with people over the phone or just go to the library.

These people normally work 35 up to 40 hours each week. Some prefer to work at night while others on weekends. They usually work overtime in order to meet deadlines or to obtain the newest stories.

An Editor or Writer should have a college degree. In order to obtain a job, the ideal subjects to study are journalism, English, communications and Technical Report Writing. If you think you write so well, you might be able to choose technical skills on the job.

If you desire to be an Editor or Writer, you should have the ability to write correctly. Also, writing must be your passion. You must be curious and creative about your surrounding. An excellent Writer has much knowledge and does not easily give up.

The lowest paid Writer in the United States can earn not more than $25,430 while the highest is above $97,700 per year. The lowest paid Editor can earn not more than $27,340 and the highest is about $87,400 each year.

Technical Writer

Now that you have stepped out of college and finished your Creative Writing degree, you will wonder what type of job you will be applying for. This is one of the problems that most graduates have to face. Now, you can be a Technical Writer since you have earned a lot of education when it comes to writing different things in various areas. Writing technically means that you have to develop ideas and materials regarding scientific and technical matters. These include medical reports and scientific accounts as well as manuals for certain equipment, catalogs, appendices and instructions regarding the operation and maintenance of some tools.

There are technical writers that also get involved in creating project proposals. In some cases, they assist in layouts and in preparations of the illustrations, diagrams, charts and photographs. One thing that one will like about this job is that they are mostly the ones who get the highest payments in every deal they have with a client. On the other hand, you should be prepared to be assigned with the most number of jobs. In addition, you should have enough knowledge when it comes to scientific and technical matters.

Some would say Technical Writers are not born with their talent. They are enhanced with their experience in writing. As a matter of fact, it is believed that they are developed one person at a time. They should be disciplined in acquiring the right information and patience needed when it comes to researching for all the details. In some instances, they are required to have a background knowledge regarding medicine, engineering, website technologies, information technology and scientific or technical illustration. It is also important that they have consumer literature understanding as well as training in business and finance issues.

Many writers of this kind are required to write in just one field of expertise. For instance, if you have sufficient knowledge concerning medicine, you will only be writing in that type of field. In other instances, even those who are not really skilled in this area are, technical writing has been their second profession.

If you want to become a technical writer yourself, you should be able to comprehend the fact that you only need to present truthful information. This is because most companies are looking for persons who have the ability to create original compositions and yet they should be able to provide the correct details regarding their topic. Usually, their output is in word form but there are some companies that include materials that are in other media forms such as graphics and video scripting. There are also some who have made documentaries and databases but these would require a lot of analysis and various reporting methods that can also be applied in SEO writing.

Study Technical Writing

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SpainThe United States

Study Technology

Choose where you would like to study Technology:

ArgentinaAustraliaAustriaBangladeshBelarusBelgiumBrazilChinaDenmarkFranceGreeceIndiaIraqIrelandJapanLatviaMexicoNetherlandsNew ZealandNicaraguaRussiaSouth KoreaSpainSwedenThailandThe United KingdomThe United StatesVenezuelaVirgin Islands, U.S.Zimbabwe

Study of Technology does not necessarily refer to the study of Information Technology. It actually involves study of IT as well as production, medical technology as well as network administration. Therefore when someone is on the lookout for studying technology abroad, he/she has to consider all these areas of study in case any particular subject has not been rounded off. Study abroad options in case of Technological studies are plenty.

About the Courses

Universities and educational institutions all over the world offer courses on Technology at all levels starting from diploma to post doctoral research programs. You will have different options at your disposal and you may choose according to your present career or the type you are aiming for. Diploma degrees mainly aim at vocational training for short terms. More formal and higher education would give you a Bachelors degree in your subject of study. For example you may be awarded degrees like Bachelor of Information System, Bachelor of Engineering Technology, Bachelor of Chemistry and Materials Technology or even Bachelor of Fashion Design and Technology. Different universities in different countries offer varieties of subjects for study. Even within the subject of Information Technology, you may choose to major in specialized area of networking, programming, technical support etc. Master’s and doctoral programs are also available in major universities around the world on technological subjects.

Information about Study Abroad Programs

Before you decide about which university in abroad to go for your study in Technology, have a fair idea about the education system of that country. Avail information about the medium of instruction preferred in the university, scholarships available for foreign students, accommodation facilities, tuition fees so on and so forth. Because you are going to a foreign country for technological studies, you need to be confident about being able to study there. Most of the universities have details about courses they offer on their respective websites. You may also request for prospectuses via e-mail. Many governments as a part of their cultural partnerships offer study abroad and student exchange programs. Be updated about such programs as they are student oriented and often provide full or half scholarships.

Career Prospects of studying Technology Abroad

People with degree in Technology related subjects seldom have to worry about jobs. With a degree from a decent university you may get instantly absorbed into the economy. As many of the universities are well known for their specific courses on Technology, a degree from such institutions may very well give you an added advantage over others. Decide on a technical subject, choose and get admitted to a good university abroad and make a career prospect that will be among the best. Among the various job profiles, some of the most attractive ones are games programmer, game developer, network administrator, system quality assurance engineer, database administrator, web developer, and many more. In fact, at the present age, an expert in any of the technology based subjects will be absorbed into one sector of the economy or another.

Study Telecom & Digital Business

Choose where you would like to study Telecom & Digital Business:

The United States

Telecom & Digital Business is a special program that focuses on designing marketing strategies and innovations companies need to make in order to prosper in today’s digital convergence of IT, media, and telecom industries. Most universities that offer this program allow students to experience residence in Silicon Valley which is the United States’ leading high-tech hub where leading engineers and silicon chip innovators and manufacturers can be found. This program is also supported by a huge number of companies that have made their mark in the global technology industry such as Accenture, Cisco, Nokia, and Telefónica.

Residence in Silicon Valley will teach students who are taking this program and who want to be successful in the ICT industry the right way to observe, compare, and build practices on a global scale. They will also learn how to analyze the potential and limitation of an information and communication technology by using a new web 2.0 environment.

Technical know-how is not the only thing students will learn in this program but business management as well. They will learn how to manage a company, more specifically a company that deals with many scenarios of the digital economy. They will also have to learn how to manage and use the necessary knowledge needed for companies to create advantages in the competition. Making business models such as new channels for distributions and marketing and communication for companies with digital tools will also be taught in this program. Students will also have to take other courses such as legal issues, management of innovation process, industry analysis models, marketing management in ICT and media companies, foundations of the convergence process, finance and economics, entrepreneurship, and, finally, internship.

This course is often offered as a post-graduate program for students who have excellent background in Information and Communication Technology. Students who successfully finish this 13-month long program will develop a global vision of business and ICT convergence that is becoming one of the major industries all over the world. They will also gain the necessary technical competency to meet the different challenges of the market, and skills in marketing, operations, information systems, and technology. They will also gain a deeper understanding of the technologies used in this industry, as well as knowledge on how to respond, with innovative products and services, to the increasing demand of the market. Because this is more a managerial program, students will develop their general management and personal skills which will help them in building their contacts within the industry and widening their professional horizon.

Choices for career paths to follow are not limited for graduates of Telecom & Digital Business, not only because of their technical advantage in using high-tech products, but also their marketing and management capabilities. Graduates can find job opportunities in companies that deal with Marketing & Business Development, Information & Communication Technology, Media, Entertainment, Investment Management in ICT industry, IT and Business Consulting, and Digital Business.

Study Telecommunications Technology

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ArgentinaChileEcuadorItalyMexicoSpainThe United StatesVietnam

When Alexander Graham Bell’s patent for the telephone was granted in 1876, mankind actually was ushered into man’s next step into evolution. Inadvertently, due to the invention of the telephone, the telecommunications industry would become one of the major contributors of any country’s economy. In fact, as of 2006 the revenue of telecommunications industry was estimated to gross at around the $1.2 trillion figure. Basically, the current developments in the field of telecommunications have allowed humans to exchange information instantly. Distance has become a non-factor because technology has made the cost of communication inexpensive and accessible to almost everyone.

Telecommunications, technically, involves the use of devices that transmit messages for the purpose of relaying messages either in the form of voice, text or video. In this day and age, the telephone and computer (the Internet) are the common devices used in transmitting messages. Mobile phones and chatting through Internet messengers are the common mode of communication nowadays.

Before, telephones were merely used exclusively for voice conversations and were usually stationary. With the onset of cellular phones (or handheld phones), the use of telephones have evolved to not just a contact tool but in a 100 different ways. Telephones, cellular phones that is, can also being used now as an appointment schedule book, a calculator, a tracking device, a directory, an Internet connecting device, data storage, movie and music player, video game consoles and whatever accoutrements phone makers can insert into a hand phone. With mobility, people found more freedom as they can be reached anytime and any place.

The Telecommunications industry is composed mainly of the service or line providers like Vodafone and AT&T, the phone makers like Nokia, Ericsson and Motorola, the end-users which buy the phones and subscribe to the service providers and the branch of government that regulates all matters of communications. Service providers usually operate on a national level, that’s why maybe there are around just two to four major players in a country where competition is allowed. This is the usual scenario because the cost of setting up telecommunication infrastructures is immensely expensive as the roll-out program would be on a country-wide scale. Infrastructures like fiber optic backbones, signal transmitters and receivers, routers and switches, broadband channels and systems that goes along with it would require billions of dollars and would require highly skilled personnel to maintain and operate. Not only that, because the telecommunications industry is a technology driven industry, constant upgrades of systems is a must because if they don’t upgrade continuously, their business rivals would surely leave them behind. For service providers, technological improvements would come in the form of added services like provision for stronger signals, wider coverage and more efficient platform of communication. Right now GSM (Global Systems for Mobile communications) is the platform of choice by telecommunication carriers as it utilizes digital signals that enable SMS and voice exchanges at higher speed data transmission.

For the phone makers, the arena is even more cut-throat. Phone engineers are trying hard to come up with higher pixelage (for the camera), longer talk time, higher screen resolution, higher memory capacity, more connectivity enablement like USB, Bluetooth and infrared and longer battery life which more or less are the driving forces why consumers would buy a handset.

Currently, the trend in Telecommunications Technology is thrusting towards further integration with Internet technology and towards wireless technology. Right now, mobile phones can browse the Internet and some websites can enable sending messages to handsets. It will only just be a matter of time when companies like Google or Yahoo would merge with AT&T to optimize resources.

To those who want to make their mark in the field of Telecommunications, there is now a course called Telecommunications Technology. Landing a high-paying job in a telecommunications company would be easier for those people with degrees in Telecommunications Technology.

Study Visual Communication Technology

Choose where you would like to study Visual Communication Technology:

ArgentinaAustraliaGermanyIrelandItalySloveniaSpainThe United KingdomThe United States

“There can be no words without images.” Aristotle had perfectly put the right words when he stated this quote and in this age of technology, the process of transmitting ideas and concepts is best done through visual media.

The course Visual Communication Technology prepares students to acquire knowledge that deals with theories and practices in computer applications of visual media. Such kind of medium includes interactive/multi media, video, print, and photography. The creation, reproduction, and distribution of visual communication materials are based on frameworks that are carefully analyzed and applied using various methods. At the end of the study, students will be able to become critical and creative as they develop their full potential in solving complex problems and coming up with solutions through Visual Communication Technology.

The career opportunities await students with a degree in Visual Communication Technology are huge. They can be entrusted with a position in technological production and management positions namely graphic coordinator, video producer, video editor, interactive media producer, digital media specialist, print and video representative, printing and plant manager, and other positions directly related to VCT.

The learning acquisition under the curriculum of VCT is all-embracing and holistic. Not only does the course make students highly creative in solving technical problems but they also learn to appreciate and gain awareness of what modern technology has to offer.

The course aims to offer students with indispensable learning experience, from mastering the theories on visual communication to executing hands-on practices that will provide students with clear understanding of both emerging and advanced technologies. The presence of visual mediums such as print materials, photographs, websites, multimedia presentations, 3-D animations, and video production among others make communication of visual information purposive and challenging. With the use of state-of-the-art equipment and tools, students will be able to operate application systems needed in creating and producing quality visual productions.

When it comes to skills and values, students of VCT will not just complete the course but will be able to demonstrate critical-thinking skills that they can utilize in solving visual communication-related problems. Students will be confident in conceptualizing and manifesting visual solution based on various media modes. With diverse and innovative approaches, students will be able to contribute in developing artistic expressions that will mark a new height in the visual realm. This is because VCT doesn’t focus on technological tools needed in producing visual outputs but it puts emphasis on fostering balance between aesthetics, craft, theories, concept development, communication, digital technology, and critical thinking.

With such kind of foundation, students will be able to design and formulate principles and methods needed in solving visual problems that require digital processes and creativity. More so, the course will let students acquire significant knowledge in practicing what they have learned through identity systems, web design, contemporary criticisms, motion graphics, and theories.

Finally, students will be able to better incorporate methodologies in both traditional and digital media as they explore new techniques, styles, illustrations, and systems relevant in effectively using Visual Communication Technology.

Study Visual Effects

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MexicoSpainThe United States

Study Web Technology

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ArgentinaCanadaSpainThe United States

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