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Old Electrotechnical Products Essay

Technological and technical developments in the late 20th and in the early 21st century, the “waste” of the old Electro-technical products seems to grow “scary”. This article discusses five sources available on the dedicated web to its intended name, in order to assess the current level of evidence on this issue. The first source of which the Greenpeace website should be “toxic chemical removal” (Greenpeace, 2007), which highlights the negative impact on electronic equipment on the environment, especially toxic chemicals with the production process. Companies provide “green scores” that they can do to ensure that individual consumers make an informed choice of their purchasing options. It also highlights two dangers of the environment – damage caused by the production, and the damage to the environment , where the discharge of a large amount of waste results in the rapid return of today’s products. It informs the subject as a source and provides a lot of information about the subject. In terms of reliability Greenpeace has a mixed reputation for activity and reliability, and it can add credibility because companies are many electric Onyx listed on the site. However, since the latest is the most commercially manipulated problematic sacrificing a majority of capital, which could be another marketing tactic. The source appears to have been daily reports in June 2007. None of the authors refer to the scientific data on these pages. However, the site is very accessible, easy to read and easy to navigate. Finally, the concept of environmental impact on the subject appears in the form of a particular result of critical debates or some discussion on this issue.

Hischier et al. Is the second source of the article. (2005) regarding the use of electrical and electronic equipment for waste. Authors’ authorities were created from both sides. The first was published in a worthwhile magazine, and secondly, the authors are members of the Institute of Technology. The approach is scientifically valid, but the article remains legible, good literary and clear studies that both searches and rehabilitation of Swiss scientific analysis (Hischier et al., 2005). However, scientific and technological information is required to read tables and results. There is a reasonable, written and published update between 2004 and 2005. It highlights issues related to the recycling of products, and concludes that the proposed system will have clear environmental advantages (Hischier et al., 2005). At the same time, it defines some limits and the need for continuous evaluation of these systems.

The third source is the subject of technological trends, product design and environmental poole and Simon (1997). It is readable, accessible and easy to follow, but it is the biggest age disadvantage. However, it shows that the environmental impact of these technologies is provided in the scientific literature. The authors are in the mechanical engineering department of the Met-de-Manchester and a certain degree of control in the subject. They show the ways in which our products are subject to the life cycle analysis, and suggest that it can lead to a reduction in the environmental impact as a result of fewer cell technology prophecies (Poole and Simon, 1997). This can really reduce the amount of the age of e-waste arrangement, but this will affect the environment related to the production processes of existing products, or difficulties with recycling the materials used in the original manufacturer needed. However, design trends seem to be a positive approach to the long-term management of environmental rights.

The fourth source, Tanskanen and Takala (2006), considers a simplified model of the life process for mobile terminals. Author authorities can be controversial, because they work for Nokia. On the one hand, it can offer the important knowledge and skills of the subject; On the other hand, there is a certain inevitable prejudice when their membership is considered. However, an estimated magazine publication makes a balance of some of the potential harm and allows them to update them. This is available, but uses important terminology of experts, which interferes with the readability. The need to focus on the efficiency and efficiency of recycling and further development is evident; This is the ability to reduce the environmental impact, but there are appropriate processes to implement it (Tanskanen and Takala, 2006).

Makauli et al. Is the fifth source of the article. (2003), which is a bit more historical, but over the last four years. The authors are involved in an environmental-oriented company, making it difficult to create companies with scientific or technological safety. Again, the article is published in a famous magazine, it can be read, and in this case it is easy to make a logical discussion and use related literature. Components consider the cost of computer monitoring waste in terms of environmental and health impacts, as well as the costs of recycling or waste management (Macauley et al., 2003). There are serious costs here, and this section shows some of the elements of the economic mine that illustrate this discussion. The authors stressed that they did not want to investigate in the areas of assurance, but perhaps the environmentally friendly recycling and recycling policy (Macauley et al., 2003) could give more weight. These sources illustrate some of the aspects of the discussion on this issue. All sources suggest and indicate that the environmental (and general) adverse effects of light on the aging are rapid and the demand for these products. Despite the making of recommendations, a clear decision was not made, and economic and practical problems impeded the application of environmentally friendly processing policies.

Electron electronics electronics is science science and has an essential role in an electron. Electronics is connected with electric circuits containing active electric components, such as vacuum tubes, transistors, diodes, integrated circuits, passive electric components and interconnected technologies. Generally, electronic devices comprise circuits consisting of active or active semiconductors supported by passive elements; Such a scheme is defined as an electronic circuit. Today, electronic devices are used by countries around the world. The electronic device was one of the most important things that could help people go through their daily lives. Almost all families around the world have an electronic device. There are many advantages and disadvantages using electronic devices. Electronic devices can carry out human tasks on a daily basis, but can also have an adverse effect on human health.

Several reasons and research have been written about why an electronic device affects the human body. This is the brightness of the electronic device. Some electronic devices go into the market with systems that users can control the brightness, but some do not use good functions. The eyes are glittered at last. People’s electronic devices were still tougher at night. Brightness affects the eyes and the focus points. This will also affect the unhappy location. Next – radiation of electronic device. Almost all electronic devices have radiation or radiation. Radiation will affect the inner parts of the human brain, nerves, eyes and ears. However, many users do not understand that the technology that requires radiation in the region has the same frequency radio of the electromagnetic spectrum around. Finally, at least not an electronic device that affects healthcare. The value of an electronic device can highlight the human environment. Therefore, a person lives in a poor environment. Not only that, but an electronic device can also ensure that people do not have healthcare. It always sits and plays gadgets and does not train it. As a result, people will begin to feel lazy and sick.

The electronic device now has various functions or applications that are important to human life. This brings many benefits to users with the help of different tools. The electronic device sets, musical instruments, attractive screen, various designs and many bright light screenshots to explain the content displayed on the device. Users are delighted to search and use different colors that explain their opinions on this term. However, for use, there was also a negative health impact on consumers, especially for eye health. The reason for this is the variety of colors added to lighting through lighting, especially for a long time, to see difficulties without taking a screen. It was discovered that there is a dazzling brightness using the night device that prevents the bright screen, which has a great influence on the health of the eye; It is resistant in long terms. Under these conditions, the eye will be smart.

To develop LE devices for many people, “pre-bed book” usually means an e-book. Traditional paper books with unmixed beds, shown from the book pages, reveal lightweight light lenses with a low density with a yellow-red spectrum that has little effect on sleep. On the contrary, when the same book is read in electronic format, a light signal will be very different from biological effects. This is not a trivial content, when more than a quarter of the e-book population read in 2014. It provides access to reading, on the Internet, on social networks and on games as well as the proof that the same LE devices increasing. this is normal, not an exception. (Paul, 2015).

Radiation, v. E. Three-room power radiation or in the form of a hot substance, particles or light from a wave of electricity or a magnetic light source (photons). Usually, it is produced in many parts of electronic equipment, such as radiation, television, information light, microwave oven, computer, smartphone, etc. Or with electric appliances. Technological changes, including laptops or mobile phones, always have utility and prejudice. Electronic devices offer computer functions, telephone calls, Internet links, lighting panels and much more. When a sub-product of these functions works, the current flows between the components made by the electromagnetic fields (EMF) and inside. Electromagnetic radiation of these areas is also called a very low frequency (ELF) (EMF). Some of the most common risks we can compare is the exposure hazard to electromagnetic radiation or electrical shock. In recent years, the additional health risks that these devices may cause have been a big deal. For example, rumors about mobile phones and their links to brain cancer are amazing. In this case, scientists could not find final evidence.

Beam damage Impact to materials and devices Not, such as lightweight motors and transistors emitted by electronic mobility. Protons, electrons and gamma-rays usually generate point defects in Gan, and the neuron damage of the largest scattered region cream. Regardless of the radiation pattern, without conductivity is reduced by heat of state caught on the ionization energy within the bandgap forbidden. The parameter is important to the carrier’s practical lifting speed for all types of radiation, due to the way the dosage is determined to degrade the device. Many studies It has been shown that Without a few more resistant radios of radio interference than GaAs, in other words, it can stand at least about two doses of the GaAs-GaAs disintegrating the same Doping level. Many problems need to be solved. These include a strong asymmetry in the rate of removal of non-n and p-genera carriers, the interaction of radiation defects with Mg-receptor, and radiation-induced defects in nitrogen-free additives is always weak to understand interaction with dislocations existing. (J. Mater, Chemistry C, 2013).

As the electronic technology is developing faster and faster, many electronic products come to facilitate complex, enhance and even help change the lives of the whole community. Electronic computer and smartphone products are, the most common, due to the many advantages of self-initiation, and seems to be a necessity in everyday life. However, everyone has more responsibility to take on the use of electronic devices, so that no one, including himself, has been injured. The electronic technology itself is neutral. Is it good or not, it depends on how everyone is using it. In this article we discuss the great focus of the three elements. Influencing and decisions about our future work, the calculation of the impact of the calculation must be a priority, when the results will be determined thereafter. This includes the positive impact that the consumer can get after using the device. Based on the electronic effect most users use for different purposes, they did not realize that this is bad. The user may be interested in developing technology interest with the electronic device and can be used to practice or use outside an ambient outdoor environment. Relationships among people can be tight of the device, which can be related to each other. Then, the level of values and communications with which this can be otherwise completely and financially viable. Electronic good value-added effects can be provided for the user with the source of information, and can be found without any restrictions on the device with the Internet. The community will make flowers at different angles due to the very common effects of different things. Personal development is also easy, and the principle of life may have been done on the basis of the right leadership.

References

Greenpeace (2007) Eliminate Toxic Chemicals http://www.greenpeace.org/international/campaigns/toxics Accessed 508-07.

Hischier, R., Wager, P. and Gauglhofer, J. (2005) Does WEEE recycling make sense from an environmental perspective? The environmental impacts of the Swiss take-back and recycling systems for waste electrical and electronic equipment (WEEE). Environmental Impact Assessment Review 25 525-539.

Macauley, M., Palmer, K. and Shih, J-S. (2003) Dealing with electronic waste: modelling the costs and environmental benefits of computer monitor disposal. Journal of Environmental Management 68 13-22.

Poole, S. and Simon, M. (1997) Technological trends, product design and the environment. Design Studies 18 237-248.

Tanskanen, P. and Takala, R. (2006) A decomposition of the end of life process. Journal of Cleaner Production 14 1326-1332.

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