Conclusion In conclusion, it is clear that resonant inductive coupling power transmission would be extremely beneficial to society if it were implemented in homes and home electronics.
Some of those infections cause hospitalization or death. These batteries inevitably are used and discarded into landfills, causing environment degradation and poisoning. By using wireless power as an alternative to wires and batteries, energy costs will also reduce, saving homeowners untold amounts of income.
In terms of the ethics of energy conservation, doing away with extreme energy consumption and reducing use of energy in general allows wireless power to become an environmentally sound technology that has the potential to be implemented on a wide scale.
This waste will undoubtedly end up in landfills, taking thousands of years to degrade and potentially leeching toxic chemicals into the soil. Phosphor, chromium, lead, mercury and barium are just a few of the compounds used in electronics that will pose environmental problems with electronic waste, or e-waste Dittke.
Many consumers would appreciate the ease of use of the wireless technology and the market would surely open up allowing these companies to continue to thrive if they can switch to the new technology.
As previously stated in the background section of this paper, not having to replace devices due to battery run-down signifies the reduction of necessary invasive surgeries and risks such as infections and disease.
The same goes for medicine. Wireless power is a lifestyle technology. In addition to the risk of shorting the leads these leads coming out of the body leave a huge risk of infection for these patients.
Medical implants and home care today completely rely on grid power and batteries, literally tying down patients to wires and continual replacement devices.
When you combine the two, power transfer and wireless: In addition to the risk of shorting the leads these leads coming out of the body leave a huge risk of infection for these patients.
Different embodiments have been in development for over years with differing degrees of success. Specific applications that will be discussed are wirelessly powered medical instruments and implants, and wireless charging for electric cars and consumer electronics.
Potential Benefits Derived from Wireless Power: Also some researchers have doubts that it is safe to have the magnetic fields used in the resonant inductive coupling flowing through our bodies. Additionally, by coordinating development and production activities, manufacturers will be better positioned to respond to the actual consumer demand for an integrated, interoperable solution.
However, switching to wireless power would increase the efficiency and convenience of these electronics, while lowering the environmental impact in the long run.
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History Channel Logo, Online Image Retrieved June 23, Implications of Wireless Electricity Hani Amir. People of Kurendhoo, Online Image Retrieved June 23, World economic crisis, Online Image Retrieved June 23, In the spirit of exploration on wireless power, this paper is a contribution to the research of wireless power.
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