One of the priorities of each room is television. He is honored worldwide in living rooms and is the place where most of us spend our time, it is understood that both thought and time for the TV enters choose the best our needs. Until recently television would be proud of large television sets or embedded media, but these days, things have changed. The TVs are now thinner, lighter and take up much less space now own TV are no longer associated with the lower surface of use, traditional channels on a television set to display.
This is where Exelium TV owners can use wall mount to maximize your living space and improve the visual appearance of the room. There are a lot of media suitable for all different television sets, regardless of their weight and size Exelium TV wall. If you want mounted on the wall, so clear and as close as possible, then an extra flat installation is suitable TV. Ranging from 15 inches to 56 inches TV cabinet of French society Exelium selection size allows you to place the TV in the perfect location in the selected area, it is still projected into space. A good idea, a practice that owns more than one way to profit.
Maybe you need your TV in a bit more flexible position and not fixed in one position? If that is the case, then the range are more likely to be their most suitable to Exelium cantilevered wall mounts needs. The area can support the TV size 15 inches to 56 inches and will save by installing the TV on the wall a lot of floor space. Which can provide support wall mounting, the capacity can be adjusted to move the TV viewing needs. This could help more people receive television or could help with the problems of light, Holder cantilevered wall anyway is very well do the job. There is a short arm model, which allows some movement, is not a long arm model, allowing television to be mounted on the wall, but you can move closer to sit on the viewer. The articulated model provides greater visualization capabilities and allows it to be seen in a better angle, but what all offer these models, the ability of television to be moved back to the wall so you can still remain as flush as possible the wall to keep it clean and tidy.
Wall brackets are available in white, which offers many advantages. These carriers are not in the room, because it is a neutral color, and integrates seamlessly into any interior decoration. Since they are in a neutral color, which can be combined with any color and never cease to exit the interior.
Good vs. Evil CEM
In relations between good and bad electromagnetic fields (EMF) to distinguish?
Researchers thought the very low and very low frequency EMF electromagnetic fields, especially frequency, they were safe because they were or X such low strength compared to other forms of radiation such as a nuclear reactor. However, as technology increases and people will continue to use more electronic devices, some researchers suspect EMFs to a subtle assault on people and contribute rsquo; immune system and overall health s.
Electromagnetic fields (EMF) are everywhere in our environment, but are low in intensity and invisible to the human eye. Electric fields produce magnetic fields are connected by local accumulation of electrical charges in the atmosphere produced thunderstorms. Earth and rsquo; the magnetic field causes a compass needle in a north-south direction to guide and is used by birds and fish for navigation.
Electric fields are measured in units of volts per meter or V / m. Magnetic fields are measured in milli-Gauss or Mg. The field is always greater near the source and diminishes as one moves away from the source.Science teaches that all energy is electromagnetic in nature. Our bodies and individual organs emit their own electromagnetic fields and our cells communicate via electromagnetic frequencies trillion. Electromagnetic energy in cells disturbance causes a change in the disease leading cellular metabolism.Electromagnetic fields harmful man-made
Because the electromagnetic fields, in particular, a very low frequency electromagnetic fields of extremely low frequency are of such low resistance as compared to other forms of radiation (such as nuclear reactors or X-ray machines), researchers were once he thought they were safe. But now, as the technology are virtually surrounded by electronic devices to grow and people continue, some researchers suspect that electromagnetic fields on people and rsquo contribute to a subtle attack; immune system and overall health s.
We are surrounded by fields of electromagnetic stress production. These fields are generated by electrical wiring in our homes and offices, televisions, computers and video terminals, microwave ovens, ceiling lamps, power lines, and hundreds of engines that produce higher than normal forces can Gauss. The balance of the human body can be easily affected by electromagnetic changes in the environment, and an unbalanced body is more susceptible to disease. CEM interact with living systems affecting enzymes with respect to cell division and proliferation, growth regulation and regulation of the sleep hormone melatonin (controlled by the metabolism of the pineal gland.)
Cumulative exposure and ndash; Hour after hour, day after day and ndash; EMF is the biggest concern. ordinary household appliances tend to generate larger cumulative EMF exposure from power lines, like most people in power lines do not live close enough to be affected by their electromagnetic fields. We can say the same for kitchen appliances, computers, televisions, mobile phones and even outlets (especially if you and rsquo; s just behind the head of the bed). While electromagnetic fields of devices falling from a height of about 16 meters, people in general are much closer to the source of the electromagnetic field and ndash; typically 18 inches from computers, a few steps from almost any distance televisions and cell phones.
The first study, which came in 1979 to establish the University of Colorado is a direct relationship between electromagnetic fields and cancer. Two epidemiologists, Nancy Wertheimer, Ph.D., and Ed Leeper, Ph.D., found that children who were exposed to high voltage lines in their early childhood, they had two to three times higher than normal increase in the development of cancer, especially leukemia.
In 1987 a large-scale study that Dr. Wertheimer and rsquo confirmed by the Department of Health of the State of New York; the conclusions, and added that electromagnetic fields from power lines also affected the neurohormones the brain. Studies have already shown that a relationship between electromagnetic fields and an increased incidence of heart disease, hypertension, Alzheimer’s disease and rsquo; Diseases, headaches, sexual dysfunction and blood diseases and ndash; the latter includes an increase of 50 percent in the number of white blood cells.
CEM benefits created by man
You are specifically controlled natural and beneficial effect on the body have designed applied frequencies. For clinical or home use in, there are devices for therapy pulsed electromagnetic field. Research has shown that pulsed electromagnetic fields low specific frequency and intensity (Gauss) blood oxygenation increase the range, improving circulation and cell metabolism. The results include sleep, pain, reduce inflammation, improved energy levels, tissue and improved bone healing, etc.
Because of these effects on the body, daily use of beneficial CEM supports healthy aging. CEM are decades in many medical conditions and disciplines, and the results can be seen used in animals and humans.
human CEM beneficial rendered biologically identical to the frequencies produced by the cells, organs, bones and tissues. It is delivered to the body by magnetic fields, which are non-invasive and non-toxic.
Research has shown that the frequencies of pulsed electromagnetic fields increase oxygenation of the blood, improving circulation and cellular metabolism. The results include sleep, pain, reduce inflammation, improved energy levels, tissue and improved bone healing, etc. Visit to hear my product review section / read more on specific devices, which offer advantageous MID.
So bad MID Protect (also called electrosmog)
Although rsquo and; t, hear or feel, is electromagnetic in nature and all living beings. Although it is difficult to avoid in our daily life, you can certainly reduce exposure and also to protect ourselves. Remember that EMFs through doors and walls!
You need to know where the sources of electromagnetic fields are in their everyday world and the strength of these sources are. Is there wiring in the wall behind the bed, which don & rsquo; not even know? The emission spray fields in the baby and rsquo; s room? CEM how you and your family for the power lines in the street? Get a meter and test areas in which to spend time.
There are simple solutions, such as an appropriate distance from these sources of electromagnetic fields takes. For example, move your bed away from the EMF source of heat and use a headset for your cell phone. If the distance is not an option, set as a suitable shield or try to convert or even dispose of electric tools, you can do without
humans and animals exposed to an alternating irradiation (such as electric apparatus) for a long time, especially in strong fields sometimes beings can develop unexpected reactions. The theme of cancer through these types of exposures in itself creates unstable ground. Except for therapeutic applications, most of these exposures should be limited in the area as far as possible. therapeutic areas are very different from normal environmental fields we regularly face normally. In addition to hair dryers and electric blankets, some of the longest and strongest exhibitions are what we live, driving electric trains, video monitors and talking on hands-free cell no. In addition, all risk factors for the combination of the areas of the environment and other potential toxic exposures such as radon and smoking, are unknown. Since these programs are not always avoidable, there are ways that we can reduce our risks?
Electric fields in V / m Beach:
<1 to 30 cm with a hair dryer,
0-10 in a typical house,
0-50 in an urban environment,
30 at a distance of 30cm from a television screen,
6-30 cm, with a fridge, and
5000 under a high voltage line of 380 kV.
Magnetic fields in Utah (UT = 0.2 Gauss 20) is of the order of:
0-0.1 in an urban environment,
0-1 in a typical house,
0.1-1 30cm fridge,
20 under a high voltage line 380 kV,
100-500, and in a distance of 30cm from a television
1000-2500 to 30 cm with a hair dryer.
It can be seen as hairdryer and TV EMF product!
effective technologies exist to protect people against electric fields
Commercially available antiglare and antistatic filters effectively monitors emit harmful computer remove the front fields. However, do not protect against magnetic fields generated by these monitors; Magnetic fields are particularly difficult to protect against. Both static and alternating magnetic fields can easily penetrate common materials, including steel, concrete and lead. Magnetic fields can be modified with high permeability and reduced metal alloy, which are very expensive as a rule. Some so-called low-radiation monitors use of such alloys to protect the deflection, can reduce emissions of magnetic fields.
Detection and Prevention
One of the most effective ways to reduce their exposure to negative CEM is through recognition and avoidance. is to know, for example, the position and strength of the field by a monitor, broadcasting, can draw an imaginary circle of security around him. appropriate measuring instruments can determine the safety circuit can be used. You can take a similar approach in the home or workplace, where long-term exposure is possible from other sources, sometimes unexpected electromagnetic fields. By conducting a survey at home or at work, high exposure points can be identified. evasive maneuvers can be as simple as repositioning the furniture, the source of EMF or both move. We know that the back of the monitors and microwave ovens can generate particularly strong electromagnetic fields. There are many reports of people who are tired or sleepy while sitting behind one of these sources, and other symptoms improved dramatically when their positions move away from the source.
Emissions from video terminals or TEV
There are four types of fields emitted by monitors (display screens or TEV) at much higher EMF levels depth:
& Bull; leads DC electric fields of electrostatic charge of the screen,
& Bull; ELF magnetic fields,
& Bull; and VLF magnetic fields
& Bull; electric fields VLF
VLF pulsed electric fields emitted by the output lines of the transformer and ELF magnetic fields and FeLV are generated by horizontal and vertical coils deflection.
will produce pulsed electric fields in the vicinity of TEV was tested as follows by the computer:
& Bull; The largest of more than 300 V / m, measured at 20 cm from the right side of the unit where the transformer is output lines. These drops to about 50 V / m at a distance of 40 cm.
& Bull; At the front, forward it to decrease rapidly to 50 V / m, but at insignificant levels to 25 to 30 cm.
& Bull; On the top of the unit, on average, 280 V / m measured at 10 cm from the upper part and reduced to about 30 V / m at a distance of 30 cm.
& Bull; With a printer through VDT emissions through the front and top are reduced considerably and ndash; as the printer acts as an effective shield.
DC electric fields with the potential gradient of less than 200 V / cm to produce biological effects was found, although indirect effects may occur. DC electric fields can against the front of the cause acceleration of charged particles suspended VDT operator. The particles may be responsible for skin rashes and eye problems by some operators TEV.
It is not yet possible to determine whether pulsed electromagnetic fields emitted from PVD represent a health hazard. Most published standards are between 10 and 300 kHz to MHz range, not in the ELF and VLF electromagnetic radiation cover. The American Conference of Governmental Industrial Hygienists recommendations should be taken seriously, and all exposures to RF radiation should be kept as low as reasonably possible.
Experiments in Health Canada and Security Center were performed on a viable solution resulted in the emission of pulsed electric fields to reduce VTE. The method requires the installation of a copper-clad paper plywood box. Cable copper foil soldered to ground is connected to ground screws metal cable modem. This shielding effectively eliminates emissions from the sides and top of the VDT. Another way to reduce exposure to emissions TEV, the workplace must be moved so that no one can sit or stand near the side or rear of a VDT. a working distance of 1-1.5m is recommended. Note that the TEV should not be arranged in a line (back and forth) as individual operators may be suspended from emissions from nearby terminals.
A case study investigated the TEV, which is then swinging on a space power cords fields that iron 3 mm thick or 250um thickness metal could provide the necessary protection. For any set of circumstances, the required thickness of the material depends on the strength of the underlying fields.
Electromagnetic shielding fabric having
Many materials have been developed to protect people from the negative electromagnetic fields. A reasonably well studied example has been used clinically Farabloc is a tissue with electromagnetic shielding properties.
Farabloc can reduce a person and rsquo; s signs, symptoms and deficits quadriceps muscle strength late onset pain caused by the eccentric movement. A single-blind, crossover, randomized placebo-controlled trial found that a double layer of fabric wrapped around the thigh Farabloc reduces pain, reverse loss of strength and reduces malondialdehyde, creatine kinase, myoglobin, leukocytes and serum meutrophils . Farabloc protects high frequency electromagnetic fields. This material has also been found to reduce phantom pain.
Power Line break field strategies AC
Concern about exposure to EMF focuses mainly on supply frequency EMF, which fall within a frequency range between 3 and 3,000Hz. This area is called extremely low frequency (ELF) designated band. are in the ELF, very long wave lengths between 100 and 100 thousand kilometers, which means, for practical purposes, we are almost always in the field interval. Electrical and magnetic fields frequently as sources independently. For a system or from a given source, electric fields are determined by the voltages and magnetic fields are determined by the currents.
Electric fields are generated when a voltage potential exists between two objects. The magnetic fields are generated by the movement of electrical charges, which typically comprises an electric current. Therefore source wire is a non-magnetic field carrying an electric current. common ground can be an important source of residential magnetic fields.
The physical layout of the electrical child is important in reducing both fields of electric and magnetic. The basic reduction approach requires relocation of the sources at a distance of a critical, such as an office area or sensitive electronic equipment. minimum distance and ldquo; hot & quot; and ldquo; neutral & quot; They are mean less exposure to magnetic fields. conducting objects are effective in the protection against electrical fields. For example, a conductive housing to a space grounded placing the electric field in this area to eliminate. ELF electric fields for conductive housing may be as simple and inexpensive as a wire mesh.
Magnetic fields, ELF magnetic fields in particular are much harder to protect electrical fields because easily penetrate most materials. The display can be active or passive. active shielding is by creating external sources receive a rejection to produce opposite field, which changes the intensity of the source. active shielding involves the use of coils carry a current oriented so that the magnetic cancel or to reduce to avoid field. control channels that produce large AC current loops is also an interesting approach.
A passive armor is performed by changing the magnetic field in an area. This is accomplished by disposing a barrier material between the magnetic source and the area to be protected. The shields can be made of ferromagnetic materials, which change the structure of the magnetic field for a preferred form that provides magnetic flux lines. This process is known as the bypass flow. Shields can also be made of conductive materials, in which the magnetic source induces electrical currents tend to oppose the original magnetic field or to cancel. This process is known as the induced current shielding. Shield, where the induced currents flow in the conductive wire loop as a way of investigating magnetic fields near power lines to reduce. Only a small number of materials are suitable for magnetic fields to reduce, and these materials can be expensive. The design and expenditures have to be part of the protection process.