This article is about the use and knowledge of techniques and processes for producing goods and services. For other uses, see Technology (disambiguation).
Technology ("science of craft", from Greek , techne, "art, skill, cunning of hand"; and -, -logia[3]) is the collection of techniques, skills, methods and processes used in the production of goods or services or in the accomplishment of objectives, such as scientific investigation. Technology can be the knowledge of techniques, processes, etc. or it can be embedded in machines, computers, devices and factories, which can be operated by individuals without detailed knowledge of the workings of such things.
The human species' use of technology began with the conversion of natural resources into simple tools. The prehistoric discovery of how to control fire and the later Neolithic Revolution increased the available sources of food and the invention of the wheel helped humans to travel in and control their environment. Developments in historic times, including the printing press, the telephone, and the Internet, have lessened physical barriers to communication and allowed humans to interact freely on a global scale. The steady progress of military technology has brought weapons of ever-increasing destructive power, from clubs to nuclear weapons.
Technology has many effects. It has helped develop more advanced economies (including today's global economy) and has allowed the rise of a leisure class. Many technological processes produce unwanted by-products, known as pollution, and deplete natural resources, to the detriment of Earth's environment. Various implementations of technology influence the values of a society and new technology often raises new ethical questions. Examples include the rise of the notion of efficiency in terms of human productivity, a term originally applied only to machines, and the challenge of traditional norms.
Philosophical debates have arisen over the use of technology, with disagreements over whether technology improves the human condition or worsens it. Neo-Luddism, anarcho-primitivism, and similar reactionary movements criticise the pervasiveness of technology in the modern world, arguing that it harms the environment and alienates people; proponents of ideologies such as transhumanism and techno-progressivism view continued technological progress as beneficial to society and the human condition.
Until recently, it was believed that the development of technology was restricted only to human beings, but 21st century scientific studies indicate that other primates and certain dolphin communities have developed simple tools and passed their knowledge to other generations.
The use of the term "technology" has changed significantly over the last 200 years. Before the 20th century, the term was uncommon in English, and usually referred to the description or study of the useful arts.[4] The term was often connected to technical education, as in the Massachusetts Institute of Technology (chartered in 1861).[5]
The term "technology" rose to prominence in the 20th century in connection with the Second Industrial Revolution. The term's meanings changed in the early 20th century when American social scientists, beginning with Thorstein Veblen, translated ideas from the German concept of Technik into "technology". In German and other European languages, a distinction exists between technik and technologie that is absent in English, which usually translates both terms as "technology". By the 1930s, "technology" referred not only to the study of the industrial arts but to the industrial arts themselves.[6]
In 1937, the American sociologist Read Bain wrote that "technology includes all tools, machines, utensils, weapons, instruments, housing, clothing, communicating and transporting devices and the skills by which we produce and use them."[7] Bain's definition remains common among scholars today, especially social scientists. But equally prominent is the definition of technology as applied science, especially among scientists and engineers, although most social scientists who study technology reject this definition.[8] More recently, scholars have borrowed from European philosophers of "technique" to extend the meaning of technology to various forms of instrumental reason, as in Foucault's work on technologies of the self (techniques de soi).
Dictionaries and scholars have offered a variety of definitions. The Merriam-Webster Dictionary offers a definition of the term: "the practical application of knowledge especially in a particular area" and "a capability given by the practical application of knowledge".[9]Ursula Franklin, in her 1989 "Real World of Technology" lecture, gave another definition of the concept; it is "practice, the way we do things around here".[10] The term is often used to imply a specific field of technology, or to refer to high technology or just consumer electronics, rather than technology as a whole.[11]Bernard Stiegler, in Technics and Time, 1, defines technology in two ways: as "the pursuit of life by means other than life", and as "organized inorganic matter."[12]
Technology can be most broadly defined as the entities, both material and immaterial, created by the application of mental and physical effort in order to achieve some value. In this usage, technology refers to tools and machines that may be used to solve real-world problems. It is a far-reaching term that may include simple tools, such as a crowbar or wooden spoon, or more complex machines, such as a space station or particle accelerator. Tools and machines need not be material; virtual technology, such as computer software and business methods, fall under this definition of technology.[13]W. Brian Arthur defines technology in a similarly broad way as "a means to fulfill a human purpose".[14]
The word "technology" can also be used to refer to a collection of techniques. In this context, it is the current state of humanity's knowledge of how to combine resources to produce desired products, to solve problems, fulfill needs, or satisfy wants; it includes technical methods, skills, processes, techniques, tools and raw materials. When combined with another term, such as "medical technology" or "space technology", it refers to the state of the respective field's knowledge and tools. "State-of-the-art technology" refers to the high technology available to humanity in any field.
Technology can be viewed as an activity that forms or changes culture.[15] Additionally, technology is the application of math, science, and the arts for the benefit of life as it is known. A modern example is the rise of communication technology, which has lessened barriers to human interaction and, as a result, has helped spawn new subcultures; the rise of cyberculture has, at its basis, the development of the Internet and the computer.[16] Not all technology enhances culture in a creative way; technology can also help facilitate political oppression and war via tools such as guns. As a cultural activity, technology predates both science and engineering, each of which formalize some aspects of technological endeavor.
The distinction between science, engineering and technology is not always clear. Science is the reasoned investigation or study of natural phenomena, aimed at discovering enduring principles among elements of the phenomenal world by employing formal techniques such as the scientific method.[17] Technologies are not usually exclusively products of science, because they have to satisfy requirements such as utility, usability and safety.
Engineering is the goal-oriented process of designing and making tools and systems to exploit natural phenomena for practical human means, often (but not always) using results and techniques from science. The development of technology may draw upon many fields of knowledge, including scientific, engineering, mathematical, linguistic, and historical knowledge, to achieve some practical result.
Technology is often a consequence of science and engineering although technology as a human activity precedes the two fields. For example, science might study the flow of electrons in electrical conductors, by using already-existing tools and knowledge. This new-found knowledge may then be used by engineers to create new tools and machines, such as semiconductors, computers, and other forms of advanced technology. In this sense, scientists and engineers may both be considered technologists; the three fields are often considered as one for the purposes of research and reference.[18]
The exact relations between science and technology in particular have been debated by scientists, historians, and policymakers in the late 20th century, in part because the debate can inform the funding of basic and applied science. In the immediate wake of World War II, for example, in the United States it was widely considered that technology was simply "applied science" and that to fund basic science was to reap technological results in due time. An articulation of this philosophy could be found explicitly in Vannevar Bush's treatise on postwar science policy, ScienceThe Endless Frontier: "New products, new industries, and more jobs require continuous additions to knowledge of the laws of nature... This essential new knowledge can be obtained only through basic scientific research." In the late-1960s, however, this view came under direct attack, leading towards initiatives to fund science for specific tasks (initiatives resisted by the scientific community). The issue remains contentiousthough most analysts resist the model that technology simply is a result of scientific research.[19][20]
The use of tools by early humans was partly a process of discovery and of evolution. Early humans evolved from a species of foraging hominids which were already bipedal,[21] with a brain mass approximately one third of modern humans.[22] Tool use remained relatively unchanged for most of early human history. Approximately 50,000 years ago, the use of tools and complex set of behaviors emerged, believed by many archaeologists to be connected to the emergence of fully modern language.[23]
Hominids started using primitive stone tools millions of years ago. The earliest stone tools were little more than a fractured rock, but approximately 40,000 years ago, pressure flaking provided a way to make much finer work.
The discovery and utilization of fire, a simple energy source with many profound uses, was a turning point in the technological evolution of humankind.[24] The exact date of its discovery is not known; evidence of burnt animal bones at the Cradle of Humankind suggests that the domestication of fire occurred before 1,000,000BC;[25] scholarly consensus indicates that Homo erectus had controlled fire by between 500,000BC and 400,000BC.[26][27] Fire, fueled with wood and charcoal, allowed early humans to cook their food to increase its digestibility, improving its nutrient value and broadening the number of foods that could be eaten.[28]
Other technological advances made during the Paleolithic era were clothing and shelter; the adoption of both technologies cannot be dated exactly, but they were a key to humanity's progress. As the Paleolithic era progressed, dwellings became more sophisticated and more elaborate; as early as 380,000BC, humans were constructing temporary wood huts.[29][30] Clothing, adapted from the fur and hides of hunted animals, helped humanity expand into colder regions; humans began to migrate out of Africa by 200,000BC and into other continents, such as Eurasia.[31]
Man's technological ascent began in earnest in what is known as the Neolithic period ("New stone age"). The invention of polished stone axes was a major advance that allowed forest clearance on a large scale to create farms. Agriculture fed larger populations, and the transition to sedentism allowed simultaneously raising more children, as infants no longer needed to be carried, as nomadic ones must. Additionally, children could contribute labor to the raising of crops more readily than they could to the hunter-gatherer economy.[32][33]
With this increase in population and availability of labor came an increase in labor specialization.[34] What triggered the progression from early Neolithic villages to the first cities, such as Uruk, and the first civilizations, such as Sumer, is not specifically known; however, the emergence of increasingly hierarchical social structures and specialized labor, of trade and war amongst adjacent cultures, and the need for collective action to overcome environmental challenges such as irrigation, are all thought to have played a role.[35]
Continuing improvements led to the furnace and bellows and provided the ability to smelt and forge native metals (naturally occurring in relatively pure form).[36]Gold, copper, silver, and lead, were such early metals. The advantages of copper tools over stone, bone, and wooden tools were quickly apparent to early humans, and native copper was probably used from near the beginning of Neolithic times (about 8000 BC).[37] Native copper does not naturally occur in large amounts, but copper ores are quite common and some of them produce metal easily when burned in wood or charcoal fires. Eventually, the working of metals led to the discovery of alloys such as bronze and brass (about 4000 BC). The first uses of iron alloys such as steel dates to around 1400 BC.
Meanwhile, humans were learning to harness other forms of energy. The earliest known use of wind power is the sailboat.[38] The earliest record of a ship under sail is shown on an Egyptian pot dating back to 3200 BC.[39] From prehistoric times, Egyptians probably used the power of the annual flooding of the Nile to irrigate their lands, gradually learning to regulate much of it through purposely built irrigation channels and 'catch' basins. Similarly, the early peoples of Mesopotamia, the Sumerians, learned to use the Tigris and Euphrates rivers for much the same purposes. But more extensive use of wind and water (and even human) power required another invention.
According to archaeologists, the wheel was invented around 4000 B.C. probably independently and nearly simultaneously in Mesopotamia (in present-day Iraq), the Northern Caucasus (Maykop culture) and Central Europe. Estimates on when this may have occurred range from 5500 to 3000 B.C., with most experts putting it closer to 4000 B.C. The oldest artifacts with drawings that depict wheeled carts date from about 3000 B.C.; however, the wheel may have been in use for millennia before these drawings were made. There is also evidence from the same period for the use of the potter's wheel. More recently, the oldest-known wooden wheel in the world was found in the Ljubljana marshes of Slovenia.[40]
The invention of the wheel revolutionized trade and war. It did not take long to discover that wheeled wagons could be used to carry heavy loads. Fast (rotary) potters' wheels enabled early mass production of pottery. But it was the use of the wheel as a transformer of energy (through water wheels, windmills, and even treadmills) that revolutionized the application of nonhuman power sources.
Innovations continued through the Middle Ages with innovations such as silk, the horse collar and horseshoes in the first few hundred years after the fall of the Roman Empire. Medieval technology saw the use of simple machines (such as the lever, the screw, and the pulley) being combined to form more complicated tools, such as the wheelbarrow, windmills and clocks. The Renaissance brought forth many of these innovations, including the printing press (which facilitated the greater communication of knowledge), and technology became increasingly associated with science, beginning a cycle of mutual advancement. The advancements in technology in this era allowed a more steady supply of food, followed by the wider availability of consumer goods.
Starting in the United Kingdom in the 18th century, the Industrial Revolution was a period of great technological discovery, particularly in the areas of agriculture, manufacturing, mining, metallurgy and transport, driven by the discovery of steam power. Technology took another step in a second industrial revolution with the harnessing of electricity to create such innovations as the electric motor, light bulb and countless others. Scientific advancement and the discovery of new concepts later allowed for powered flight, and advancements in medicine, chemistry, physics and engineering. The rise in technology has led to skyscrapers and broad urban areas whose inhabitants rely on motors to transport them and their daily bread. Communication was also greatly improved with the invention of the telegraph, telephone, radio and television. The late 19th and early 20th centuries saw a revolution in transportation with the invention of the airplane and automobile.
The 20th century brought a host of innovations. In physics, the discovery of nuclear fission has led to both nuclear weapons and nuclear power. Computers were also invented and later miniaturized utilizing transistors and integrated circuits. information technology subsequently led to the creation of the Internet, which ushered in the current Information Age. Humans have also been able to explore space with satellites (later used for telecommunication) and in manned missions going all the way to the moon. In medicine, this era brought innovations such as open-heart surgery and later stem cell therapy along with new medications and treatments.
Complex manufacturing and construction techniques and organizations are needed to make and maintain these new technologies, and entire industries have arisen to support and develop succeeding generations of increasingly more complex tools. Modern technology increasingly relies on training and education their designers, builders, maintainers, and users often require sophisticated general and specific training. Moreover, these technologies have become so complex that entire fields have been created to support them, including engineering, medicine, and computer science, and other fields have been made more complex, such as construction, transportation and architecture.
Generally, technicism is a reliance or confidence in technology as a benefactor of society. Taken to extreme, technicism is the belief that humanity will ultimately be able to control the entirety of existence using technology. In other words, human beings will someday be able to master all problems and possibly even control the future using technology. Some, such as Stephen V. Monsma,[41] connect these ideas to the abdication of religion as a higher moral authority.
Optimistic assumptions are made by proponents of ideologies such as transhumanism and singularitarianism, which view technological development as generally having beneficial effects for the society and the human condition. In these ideologies, technological development is morally good. Some critics see these ideologies as examples of scientism and techno-utopianism and fear the notion of human enhancement and technological singularity which they support. Some have described Karl Marx as a techno-optimist.[42]
On the somewhat skeptical side are certain philosophers like Herbert Marcuse and John Zerzan, who believe that technological societies are inherently flawed. They suggest that the inevitable result of such a society is to become evermore technological at the cost of freedom and psychological health.
Many, such as the Luddites and prominent philosopher Martin Heidegger, hold serious, although not entirely deterministic reservations, about technology (see "The Question Concerning Technology"[43]). According to Heidegger scholars Hubert Dreyfus and Charles Spinosa, "Heidegger does not oppose technology. He hopes to reveal the essence of technology in a way that 'in no way confines us to a stultified compulsion to push on blindly with technology or, what comes to the same thing, to rebel helplessly against it.' Indeed, he promises that 'when we once open ourselves expressly to the essence of technology, we find ourselves unexpectedly taken into a freeing claim.'[44]" What this entails is a more complex relationship to technology than either techno-optimists or techno-pessimists tend to allow.[45]
Some of the most poignant criticisms of technology are found in what are now considered to be dystopian literary classics, for example Aldous Huxley's Brave New World and other writings, Anthony Burgess's A Clockwork Orange, and George Orwell's Nineteen Eighty-Four. And, in Faust by Goethe, Faust's selling his soul to the devil in return for power over the physical world, is also often interpreted as a metaphor for the adoption of industrial technology. More recently, modern works of science fiction, such as those by Philip K. Dick and William Gibson, and films (e.g. Blade Runner, Ghost in the Shell) project highly ambivalent or cautionary attitudes toward technology's impact on human society and identity.
The late cultural critic Neil Postman distinguished tool-using societies from technological societies and, finally, what he called "technopolies," that is, societies that are dominated by the ideology of technological and scientific progress, to the exclusion or harm of other cultural practices, values and world-views.[46]
Darin Barney has written about technology's impact on practices of citizenship and democratic culture, suggesting that technology can be construed as (1) an object of political debate, (2) a means or medium of discussion, and (3) a setting for democratic deliberation and citizenship. As a setting for democratic culture, Barney suggests that technology tends to make ethical questions, including the question of what a good life consists in, nearly impossible, because they already give an answer to the question: a good life is one that includes the use of more and more technology.[47]
Nikolas Kompridis has also written about the dangers of new technology, such as genetic engineering, nanotechnology, synthetic biology and robotics. He warns that these technologies introduce unprecedented new challenges to human beings, including the possibility of the permanent alteration of our biological nature. These concerns are shared by other philosophers, scientists and public intellectuals who have written about similar issues (e.g. Francis Fukuyama, Jrgen Habermas, William Joy, and Michael Sandel).[48]
Another prominent critic of technology is Hubert Dreyfus, who has published books On the Internet and What Computers Still Can't Do.
Another, more infamous anti-technological treatise is Industrial Society and Its Future, written by Theodore Kaczynski (aka The Unabomber) and printed in several major newspapers (and later books) as part of an effort to end his bombing campaign of the techno-industrial infrastructure.
The notion of appropriate technology, however, was developed in the 20th century (e.g., see the work of E. F. Schumacher and of Jacques Ellul) to describe situations where it was not desirable to use very new technologies or those that required access to some centralized infrastructure or parts or skills imported from elsewhere. The eco-village movement emerged in part due to this concern.
This article mainly focusses on American concerns even if it can reasonably be generalized to other Western countries.
The inadequate quantity and quality of American jobs is one of the most fundamental economic challenges we face. [...] What's the linkage between technology and this fundamental problem?
In his article, Jared Bernstein, a Senior Fellow at the Center on Budget and Policy Priorities,[49] questions the widespread idea that automation, and more broadly technological advances have mainly contributed to this growing labor market problem. His thesis appears to be a third way between Optimism and Skepticism. Basically, he stands for a neutral approach of the linkage between technology and American issues concerning unemployment and eroding wages.
He uses two main arguments to defend his point. First of all, because of recent technological advances, an increasing number of workers are losing their jobs. Yet, scientific evidence fails to clearly demonstrate that technology has displaced so many workers that it has created more problems than it has solved. Indeed, automation threatens repetitive jobs but higher-end jobs are still necessary because they complement technology and manual jobs that "requires flexibility judgment and common sense"[50] remain hard to be replaced by machines.Second, studies have not defined clear links between recent technology advances and the wage trends of the last decades.
Therefore, according to Jared Bernstein, instead of focusing on technology and its hypothetical influences on current American increasing unemployment and eroding wages, one needs to worry more about "bad policy that fails to offset the imbalances in demand, trade, income and opportunity."[50]
Thomas P. Hughes pointed out that because technology has been considered as a key way to solve problems, we need to be aware of its complex and varied characters to use it more efficiently.[51] What is the difference between a wheel or a compass and cooking machines such as an oven or a gas stove? Can we consider all of them, only a part of them or none of them as technologies?
Technology is often considered too narrowly: according to Thomas P. Hughes "Technology is a creative process involving human ingenuity.[51] This definition emphasizing on creativity avoids unbounded definition that may mistakenly include cooking technologies. But it also highlights the prominent role of humans and therefore their responsibilities for the use of complex technological systems.
Yet, because technology is everywhere and has dramatically changed landscapes and societies, Hughes argued that engineers, scientists, and managers often have believed that they can use technology to shape the world as they want. They have often supposed that technology is easily controllable and this assumption has to be thoroughly questioned.[51] For instance, Evgeny Morozov particularly challenges two concepts: Internet-centrism and solutionism.[52] Internet-centrism refers to the idea that our society is convinced that the Internet is one of the most stable and coherent forces. Solutionism is the ideology that every social issue can be solved thanks to technology and especially thanks to the internet. In fact, technology intrinsically contains uncertainties and limitations. According to Alexis Madrigal's critique of Morozov's theory, to ignore it will lead to unexpected consequences that could eventually cause more damage than the problems they seek to address.[53]Benjamin Cohen and Gwen Ottinger precisely discussed the multivalent effects of technology.[54]
Therefore, recognition of the limitations of technology and more broadly scientific knowledge is needed especially in cases dealing with environmental justice and health issues. Gwen Ottinger continues this reasoning and argues that the ongoing recognition of the limitations of scientific knowledge goes hand in hand with scientists and engineers new comprehension of their role. Such an approach of technology and science "[require] technical professionals to conceive of their roles in the process differently. [They have to consider themselves as] collaborators in research and problem solving rather than simply providers of information and technical solutions".[55]
Technology is properly defined as any application of science to accomplish a function. The science can be leading edge or well established and the function can have high visibility or be significantly more mundane but it is all technology, and its exploitation is the foundation of all competitive advantage.
Technology-based planning is what was used to build the US industrial giants before WWII (e.g., Dow, DuPont, GM) and it what was used to transform the US into a superpower. It was not economic-based planning.
In 1983 Project Socrates was initiated in the US intelligence community to determine the source of declining US economic and military competitiveness. Project Socrates concluded that technology exploitation is the foundation of all competitive advantage and that declining US competitiveness was from decision-making in the private and public sectors switching from technology exploitation (technology-based planning) to money exploitation (economic-based planning) at the end of World War II.
Project Socrates determined that to rebuild US competitiveness, decision making throughout the US had to readopt technology-based planning. Project Socrates also determined that countries like China and India had continued executing technology-based (while the US took its detour into economic-based) planning, and as a result had considerably advanced the process and were using it to build themselves into superpowers. To rebuild US competitiveness the US decision-makers needed to adopt a form of technology-based planning that was far more advanced than that used by China and India.
Project Socrates determined that technology-based planning makes an evolutionary leap forward every few hundred years and the next evolutionary leap, the Automated Innovation Revolution, was poised to occur. In the Automated Innovation Revolution the process for determining how to acquire and utilize technology for a competitive advantage (which includes R&D) is automated so that it can be executed with unprecedented speed, efficiency and agility.
Project Socrates developed the means for automated innovation so that the US could lead the Automated Innovation Revolution in order to rebuild and maintain the country's economic competitiveness for many generations.[56][57][58]
The use of basic technology is also a feature of other animal species apart from humans. These include primates such as chimpanzees, some dolphin communities,[59][60] and crows.[61][62] Considering a more generic perspective of technology as ethology of active environmental conditioning and control, we can also refer to animal examples such as beavers and their dams, or bees and their honeycombs.
The ability to make and use tools was once considered a defining characteristic of the genus Homo.[63] However, the discovery of tool construction among chimpanzees and related primates has discarded the notion of the use of technology as unique to humans. For example, researchers have observed wild chimpanzees utilising tools for foraging: some of the tools used include leaf sponges, termite fishing probes, pestles and levers.[64]West African chimpanzees also use stone hammers and anvils for cracking nuts,[65] as do capuchin monkeys of Boa Vista, Brazil.[66]
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Technology - Wikipedia, the free encyclopedia
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- Small cell technology is large endeavor for state - Crain's Cleveland Business [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- Grapevine: Technology at any age - Jerusalem Post Israel News [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- Feeling Tied to Technology? Neuroscientist Offers Tips to Focus and Recharge Your Brain - whotv.com [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- The technology fixing Britain's parking problem - The Independent [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- DHS Developing Technology to Identify Terrorist Travelers - Breitbart News [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- New technology has display designers thinking outside the rectangle - The Japan Times [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Graph Technology A Data Standby By For Every Fortune 500 Company - Computer Business Review [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Tesla obtains patent for charging metal-air battery technology that could enable longer range - Electrek [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Tim Cook: Augmented Reality is as big of a technology as the smartphone - BGR [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Franklin County's 911 centers sharing technology to receive texts - Columbus Dispatch [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- A New Angel Investing Platform Connects Deep Technology And Science Startups With Capital - Forbes [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- How technology is encouraging society to be stupid - The Next Web [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Technology puts 'touch' into long-distance relationships - Phys.Org [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- VW plans to use Mobileye sensing and localization technology - Automotive News (subscription) (blog) [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- How dangerous is technology? - OUPblog (blog) [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Valentine's day: what's your secret technology crush? - Naked Security [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Johnston educators among presenters at technology conference - News & Observer [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Is Magic Leap Lying About Its Acid Trip Technology? - Vanity Fair [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- A look at North Korea's missile launches and technology - ABC News [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Parents and technology How much is too much? - WGBA-TV [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Apple's Eddy Cue says technology companies have a responsibility to combat fake news - Recode [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Statistical agencies looking to C-suite, new digital tools to address biggest challenges - FederalNewsRadio.com [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]
- Even Indian technology entrepreneurs think they are living in a bubble - Quartz [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]
- Is Hyperloop transportation technology coming to India? - YourStory.com [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]
- Can Technology Really Solve China's Healthcare Crisis? - Forbes [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]