Computer Technology Definition Essay Outline

Free sample essay on Computer Technology:
Since the beginning of time technology has helped us out as a human race. From the invention of the wheel to the Internet, technology has been a great factor on the way our civilization has grown. With more and more technological advances just around the corner, our civilization will continue to grow faster and faster than ever before.

Computers make life easier for people everyday. They help us to do tasks quicker and communicate with friends and family with the click on a button. Computers play a significant role in the school system as well. They help students to learn more efficiently and help them do their work. Computers offer the Internet which helps students research information for projects they may have. School computers also offer programs which can help anyone learn. An example of this is the program All The Right Type. This program helps students as well as teachers, to learn how to type faster and more efficiently. Also there are other programs which younger students can go on to help them with developing and reinforcing their math skills and reading skills. Programs like Math Circus and matching the word with the picture. Programs like these make it easy to understand and use computers, yet it also makes learning fun. Computers also make writing and doing homework easier to complete. With spell check and other spelling tools, it makes it easier and faster to complete work. This is because you are not spending all your time going through your homework looking for spelling mistakes, because the computer automatically does it for you, making your life easier.

Further, Computers also benefit the development of fundamental skills. Good educational software enables children to practice and develop a broad range skills. It can help them learn, for example, about shapes, letters, numbers, rhythm, and colors. Good educational software can also help children develop their understanding of cause and effect, procedural thinking, higher order problem solving and creative expression. (www.indianchild.com) Many students have become to reliable on computers however. Many children come to libraries to access the computers and CD-ROM’s rather than to read. Though such computer activities are purported to be educational, there is a fundamental difference between the skills used in reading versus those used to engage in an interactive CD-ROM. Librarians as well as teachers, should guide as many children as possible towards the text books rather than the computer. Emotional skills are also enhanced by using a computer. Children develop self-confidence and self-esteem as they master computer skills and use the computer to make things happen. Computers also develop social skills. In a classroom setting with many other students, or in a home when the students friends or parents are available, children often prefer working with one or two partners over working alone, which leads to the development of social skills.

Lastly, computers benefit children with special needs in the school system. Computers have proven extremely beneficial to students with certain speech, audio, and motor limitations. Students with special needs can use alternative input and output devices to interact with computers and do things that they normally could not accomplish independently. What they can do through using a computer boosts their self-esteem and provides them with a greater sense of control with the world around them and their own individual lives. The Internet– or the information highway — provides them with the best of knowledge for their treatments and they can keep in touch with doctors or friends through out the world with the Internet. (www.indianchild.com) Computer technology will continue to assist special needs students far into the future.

In conclusion, technology only benefits those who can afford it, and not those who can’t. What are poor people or third world countries supposed to do when it comes to technological advances and they have no money? Does it really seem fair that poor people or third world countries get left behind, while other countries move forward in the technology world?

You can order a custom essay, term paper, research paper, thesis or dissertation on Computer Technology at our professional custom essay writing service which provides students with custom papers written by highly qualified academic writers. High quality and no plagiarism guarantee! Get professional essay writing help at an affordable cost.

3.38 avg. rating (68% score) - 13 votes

Tags: computer science essays, computer technology essay, computer technology essay example, sample essay on computer technology, technology essays

The following outline is provided as an overview of and topical guide to technology:

Technology – collection of tools, including machinery, modifications, arrangements and procedures used by humans. Engineering is the discipline that seeks to study and design new technologies. Technologies significantly affect human as well as other animal species' ability to control and adapt to their natural environments.

Components of technology[edit]

Branches of technology[edit]

  • Aerospace – flight or transport above the surface of the Earth.
    • Space exploration – the physical investigation of the space more than 100 km above the Earth by either manned or unmanned spacecraft.
  • Applied physics – physics which is intended for a particular technological or practical use. It is usually considered as a bridge or a connection between "pure" physics and engineering.
  • Agriculture – cultivation of plants, animals, and other living organisms.
    • Fishing – activity of trying to catch fish. Fish are normally caught in the wild. Techniques for catching fish include hand gathering, spearing, netting, angling and trapping.
      • Fisheries – a fishery is an entity engaged in raising or harvesting fish which is determined by some authority to be a fishery. According to the FAO, a fishery is typically defined in terms of the "people involved, species or type of fish, area of water or seabed, method of fishing, class of boats, purpose of the activities or a combination of the foregoing features".
      • Fishing industry – industry or activity concerned with taking, culturing, processing, preserving, storing, transporting, marketing or selling fish or fish products. It is defined by the FAO as including recreational, subsistence and commercial fishing, and the harvesting, processing, and marketing sectors.
    • Forestry – art and science of tree resources, including plantations and natural stands. The main goal of forestry is to create and implement systems that allow forests to continue a sustainable provision of environmental supplies and services.
    • Organic gardening and farming
    • Sustainable agriculture
  • Communication
    • Books –
    • Telecommunication – the transfer of information at a distance, including signaling, telegraphy, telephony, telemetry, radio, television, and data communications.
  • Computing – any goal-oriented activity requiring, benefiting from, or creating computers. Computing includes designing and building hardware and software systems; processing, structuring, and managing various kinds of information; doing scientific research on and with computers; making computer systems behave intelligently; creating and using communications and entertainment media; and more.
    • Computer engineering – discipline that integrates several fields of electrical engineering and computer science required to develop computer systems, from designing individual microprocessors, personal computers, and supercomputers, to circuit design.
      • Computers – general purpose devices that can be programmed to carry out a finite set of arithmetic or logical operations. Since a sequence of operations can be readily changed, computers can solve more than one kind of problem.
    • Computer science – the study of the theoretical foundations of information and computation and of practical techniques for their implementation and application in computer systems.
    • Information technology – the acquisition, processing, storage and dissemination of vocal, pictorial, textual and numerical information by a microelectronics-based combination of computing and telecommunications.
    • Software engineering – the systematic approach to the development, operation, maintenance, and retirement of computer software.
      • Programming – the process of designing, writing, testing, debugging, and maintaining the source code of computer programs.
      • Software development – development of a software product, which entails computer programming (process of writing and maintaining the source code), but also encompasses a planned and structured process from the conception of the desired software to its final manifestation.
      • C++ – one of the most popular programming languages with application domains including systems software, application software, device drivers, embedded software, high-performance server and client applications, and entertainment software such as video games.
      • Perl – high-level, general-purpose, interpreted, dynamic programming language. Used for text processing, CGI scripting, graphics programming, system administration, network programming, finance, bioinformatics, and more.
    • Software – one or more computer programs and data held in the storage of the computer for one or more purposes. In other words, software is a set of programs, procedures, algorithms and its documentation concerned with the operation of a data processing system.
      • Free software – software that can be used, studied, and modified without restriction.
      • Search engines – information retrieval systems designed to help find information stored on a computer system.
    • Internet – the global system of interconnected computer networks that use the standard Internet Protocol Suite (TCP/IP).
    • Computer industry
      • Apple Inc. – manufacturer and retailer of computers, hand-held computing devices, and related products and services.
      • Google – Google Inc. and its Internet services including Google Search.
  • Construction – building or assembly of any physical structure.
  • Design – the art and science of creating the abstract form and function for an object or environment.
  • Electronics
  • Energy
  • Engineering – the application of science, mathematics, and technology to produce useful goods and systems.
    • Chemical engineering – the technology and application of chemical processes to produce useful materials.
    • Computer engineering –
    • Control engineering –
    • Electrical engineering – the technology and application of electromagnetism, including electricity, electronics, telecommunications, computers, electric power, magnetics, and optics.
    • Geoengineering –
    • Software engineering – the technology and application of a systematic approach to the development, operation, maintenance, and retirement of computer software.
  • Firefighting – act of extinguishing fires. A firefighter fights fires to prevent destruction of life, property and the environment. Firefighting is a professional technical skill.
  • Forensic science – application of a broad spectrum of sciences to answer questions of interest to a legal system. This may be in relation to a crime or a civil action.
  • Health
    • Biotechnology – applied biology that involves the use of living organisms and bioprocesses in engineering, technology, medicine and other fields requiring bioproducts.
    • Ergonomics – the study of designing equipment and devices that fit the human body, its movements, and its cognitive abilities.
  • Hydrology – The study of the movement, distribution, and quality of water on Earth and other planets, including the hydrologic cycle, water resources and environmental watershed sustainability.
  • Industry – production of an economic good or service.
    • Automation – use of machinery to replace human labor.
    • Industrial machinery –
    • Machines – devices that perform or assist in performing useful work.
    • Manufacturing – use of machines, tools and labor to produce goods for use or sale. The term may refer to a range of human activity, from handicraft to high tech, but is most commonly applied to industrial production, in which raw materials are transformed into finished goods on a large scale.
    • Robotics – deals with the design, construction, operation, structural disposition, manufacture and application of robots.
  • Information science
    • Cartography – the study and practice of making maps. Combining science, aesthetics, and technique, cartography builds on the premise that reality can be modeled in ways that communicate spatial information effectively.
    • Library science – technology related to libraries and the information fields.
  • Military science – the study of the technique, psychology, practice and other phenomena which constitute war and armed conflict.
  • Mining – extraction of mineral resources from the earth.
  • Nanotechnology – The study of manipulating matter on an atomic and molecular scale. Generally, nanotechnology deals with structures sized between 1 and 100 nanometre in at least one dimension, and involves developing materials or devices possessing at least one dimension within that size.
  • Prehistoric technology – technologies that emerged before recorded history (i.e., before the development of writing).
  • Sustainability – capacity to endure. In ecology, the word describes how biological systems remain diverse and productive over time. Long-lived and healthy wetlands and forests are examples of sustainable biological systems. For humans, sustainability is the potential for long-term maintenance of well being, which has environmental, economic, and social dimensions.
  • Transport – the transfer of people or things from one place to another.
    • Rail transport – means of conveyance of passengers and goods by way of wheeled vehicles running on rail tracks consisting of steel rails installed on sleepers/ties and ballast.
    • Vehicles – mechanical devices for transporting people or things.
      • Automobiles – human-guided powered land-vehicles.
      • Bicycles – human-powered land-vehicles with two or more wheels.
      • Motorcycles – single-track, engine-powered, motor vehicles. They are also called motorbikes, bikes, or cycles.
      • Vehicle components
        • Tires – ring-shaped coverings that fit around wheel rims

Technology by region[edit]

History of technology[edit]

History of technology

History of technology by period[edit]

Technological ages[edit]

Media about the history of technology[edit]

  • Connections – documentary television series and 1978 book ("Connections" based on the series) created, written and presented by science historian James Burke. It took an interdisciplinary approach to the history of science and invention and demonstrated how various discoveries, scientific achievements, and historical world events were built from one another successively in an interconnected way to bring about particular aspects of modern technology. There were 3 seasons produced, and they aired in 1978, 1994, and 1997.
  • The Day the Universe Changed – documentary television series written and presented by science historian James Burke, originally broadcast in 1985 by the BBC. The series' primary focus is on the effect of advances in science and technology on western society in its philosophical aspects. Ran for one season, in 1986.

History of technology by region[edit]

History of technology by field[edit]

  • History of invention
  • History of aerospace
  • History of artificial intelligence
  • History of agriculture
  • History of agricultural science
  • History of architecture, timeline
  • History of biotechnology
  • History of cartography
  • History of chemical engineering
  • History of communication
  • History of electrical engineering
  • History of energy development
  • History of engineering
  • History of industry
  • History of library and information science
  • History of microscopy
  • History of manufacturing
  • History of materials science, timeline
  • History of measurement
  • History of medicine
  • History of motor and engine technology
  • History of military science
  • History of transport, timeline
  • History of biotechnology –
  • History of display technology –
  • History of film technology –
  • History of information technology auditing –
  • History of military technology –
  • History of nanotechnology –
  • History of science and technology –
  • History of web syndication technology –
  • Timeline of agriculture and food technology –
  • Timeline of clothing and textiles technology –
  • Timeline of communication technology –
  • Timeline of diving technology –
  • Timeline of heat engine technology –
  • Timeline of hypertext technology –
  • Timeline of lighting technology –
  • Timeline of low-temperature technology –
  • Timeline of materials technology –
  • Timeline of medicine and medical technology –
  • Timeline of microscope technology –
  • Timeline of motor and engine technology –
  • Timeline of particle physics technology –
  • Timeline of photography technology –
  • Timeline of rocket and missile technology –
  • Timeline of telescope technology –
  • Timeline of telescopes, observatories, and observing technology –
  • Timeline of temperature and pressure measurement technology –
  • Timeline of time measurement technology –
  • Timeline of transportation technology –

Hypothetical technology[edit]

Potential technology of the future includes:

Hypothetical technology –

  • Femtotechnology – hypothetical term used in reference to structuring of matter on the scale of a femtometer, which is 10−15 m. This is a smaller scale in comparison to nanotechnology and picotechnology which refer to 10−9 m and 10−12 m respectively. Work in the femtometer range involves manipulation of excited energy states within atomic nuclei (see nuclear isomer) to produce metastable (or otherwise stabilized) states with unusual properties.

Philosophy of technology[edit]

Philosophy of technology –

Management of technology[edit]

Advancement of technology[edit]

Politics of technology[edit]

Economics of technology[edit]

Technology education[edit]

Technology organizations[edit]

Science and technology think tanks[edit]

Technology media[edit]

For historical treatments, see Media about the history of technology, above

Books on technology[edit]

Technology periodicals[edit]

Websites[edit]

Fictional technology[edit]

Fictional technology –

Persons influential in technology[edit]

See also[edit]

Further reading[edit]

  • Ambrose, Stanley H. (2 March 2001). "Paleolithic Technology and Human Evolution"(PDF). Science. Science. 291 (5509): 1748–53. Bibcode:2001Sci...291.1748A. doi:10.1126/science.1059487. PMID 11249821. Archived from the original(PDF) on 14 June 2007. Retrieved 10 March 2007. 
  • Huesemann, M.H., and J.A. Huesemann (2011). Technofix: Why Technology Won’t Save Us or the Environment, New Society Publishers, ISBN 0865717044.
  • Kremer, Michael (1993). "Population Growth and Technological Change: One Million B.C. to 1990". Quarterly Journal of Economics. The MIT Press. 108 (3): 681–716. doi:10.2307/2118405. JSTOR 2118405. .
  • Kevin Kelly. What Technology Wants. New York, Viking Press, 14 October 2010, hardcover, 416 pages. ISBN 978-0670022151
  • Mumford, Lewis. (2010). Technics and Civilization. University of Chicago Press, ISBN 0226550273.
  • Rhodes, Richard. (2000). Visions of Technology: A Century of Vital Debate about Machines, Systems, and the Human World. Simon & Schuster, ISBN 0684863111.
  • Teich, A.H. (2008). Technology and the Future. Wadsworth Publishing, 11th edition, ISBN 0495570524.
  • Wright, R.T. (2008). Technology. Goodheart-Wilcox Company, 5th edition, ISBN 1590707184.

References[edit]

External links[edit]

Technology news

0 comments

Leave a Reply

Your email address will not be published. Required fields are marked *