Solar Flares, Electromagnetic Pulses (Emps) and Faraday Cages - Surviving 2012

With the cheaper getting worse in all countries, some to the point of falling apart, it's becoming more prominent to have a backup plan in case of emergencies. If the whole power grid was wiped out what would you do for power? Even if you have plans of alternative power straight through solar panels or wind generators the inverters would be fried unless you had a faraday cage. But what are the odds of that happening? considering that an Hemp (high-altitude electromagnetic pulse) blast can be the size of an whole nation as big as the United States it's something that every person should look at as a realistic situation.

What is an Emp and Hemp attack exactly?

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An Emp attack with an electromagnetic pulse generated without the use of nuclear weapon is called an Nnemp (Non-nuclear electromagnetic pulse). The range of an Nnemp is highly smaller than a Hemp because they require a chemical explosive as their preliminary power source. That being said we'll be talking about Hemp's since, as stated, they could be as big as an whole country. A Hemp attack is employed by launching a nuclear bomb (even a easy one) 25+ miles above Earth's climate and detonating it. The pulse overloads all electronic devices (and batteries such as the one from a laptop will be "shorted"). If this were to happen and a nuclear bomb was launched ~30 miles above the climate of the United States and detonated above Kansas it would take out All electronic operations in the whole U.S. The same kind of reaction is potential with a solar flare (it has the same geomagnetic storm as an E3 area of a Hemp).

Solar Flares, Electromagnetic Pulses (Emps) and Faraday Cages - Surviving 2012

But you have a backup plan for your power source?

Unless you have your inverter in a Faraday cage it will be fried along with transformers and power lines. Any electronics not protected Will be destroyed. (Whether or not you have a surge protector or if they're not plugged in a socket).

Solar Flares:

A big concern with Emp's are with solar flares, but why is that? A severe solar flare has a similar geomagnetic storm to an E3 area of a Hemp. Solar flares happen every day and in most cases it takes less than a day to reach Earth (sometimes only 17 hours). If your whole city was told you had 17 hours until a solar flare might destroy your city's power for a few weeks would you be prepared? Or more likely you wouldn't have a warning (like the province of Quebec on March 13).

March 13, 1989: The whole province of Quebec was blacked out when the Emp created by the solar storm found their way into the power grid of the Hydro-Quebec Power Authority. Their capacitors tried to vocalize the currents but couldn't handle it and within seconds 6 million population found themselves without power. The only thing that stopped this from happening to the Us was the fact the greatest zone hit Canada instead. It would have been an estimated cost of billion damages if the capacitors on the Allegheny Network had been hit like they were in Canada.

Another one that's interesting:

October 29, 2003: One of the fastest provocative solar flares to date causes a 0 million dollar satellite to crash to Earth.

How can you safe against a solar flare/Emp? One of the more trustworthy methods is a Faraday cage.

What is a Faraday cage?

A Faraday cage or Faraday shield is an enclosure formed by conducting material or by a mesh of such material. Such an enclosure blocks out external static and non-static galvanic fields. Two things to remember is a Faraday cages Have to be grounded and there can't be any gaps in the protective material. Even though a Faraday cage isn't fool proof it will increase the opening of rescue your emergency electronics infinitely (since it Will be destroyed if it's not protected). The higher the frequency of the Emp, the faster it is. If it goes too fast it will causes a burn out. This is why the cage must be continuously grounded and the openings in the mesh/material cannot be too large. If they holes in the mesh are too large then the magnetic pulse will conduct to slip in. A easy Faraday cage would be to get a small box (or you could easily make the basic wooden frame of the box) and use very fine mesh (2x4 brass mesh sheets are fine) and carport the brash mesh on the face of the box. Make a secured way to get in the box (a easy lid with hinges would work) and solder a ground wire to one of the corners and ground the cage. If you want to go the extra mile to safe against any type of Emp bury the box under a few feet (2-3 feet would work) of soil. You can place all your emergency battery operated tool in it (remember to comprise batteries in the cage as well).

With a properly constructed Faraday cage you can most likely safe anything that was located inside it from an Emp or solar flare.

Important:

Electronics that are not properly shielded Will be destroyed if they are hit with an Emp. It doesn't matter if they are plugged into the wall or not. (There have been rumors that say if your electronics are not plugged in the wall then it they will be fine. This is not true). If you'd like the full explanation as to why you can email/message me.

A Faraday cage that uses only mesh or sheet metal can only shield against a magnetic frequency up to the Rf range. Electronics nowadays are beneficial in the Shf, Uhf and Vhf range (such as your television). To efficiently safe your electronics from a Emp that is higher than an Rf range you need some steel, iron or thick copper.

Solar Flares, Electromagnetic Pulses (Emps) and Faraday Cages - Surviving 2012

How to design Build It Yourself Solar Panels in 5 Easy Steps

As conventional electricity sources are becoming high-priced and unsustainable more and more citizen are turning to renewable energy to help power their home. Renewable energy is generated from natural resources that are promptly renewed and its consumption doesn't adversely influence the environment. Build it yourself solar panels are one of the best options ready to help you originate renewable energy in your home.

Instead of buying market panels, build it yourself solar panels are more affordable and uncomplicated adequate to establish with a good set of detailed plans and step-by-step instructions. The tools and materials needed to establish the panels consist of solar plates, photovoltaic or solar cells, a semi conductor block, inverter, conductor wires and a battery pack. These components are in effect constructed and effortlessly ready at affordable prices.

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There are 5 main steps to establish build it yourself solar panels, with a brief summary you will see just how easy it can be to originate solar energy in your home.

How to design Build It Yourself Solar Panels in 5 Easy Steps

Step 1 - establish the solar plates

The solar plates are the basis of your the main panel, this includes the solar cells, cement base to keep the cells at a safe climatic characteristic and a sheet of glass to protect the solar cells from weathering. The photovoltaic cells, or solar cells, digest energy from direct sunlight. This direct sunlight has the possible to heat the solar cells to very high temperatures. This is why a layer of cement is added to the solar plate to keep the cells at a safe level to avoid any heat damage.

Step 2 - associate conductor wires to link the cells

Each end of the solar cells should be connected by conductor wires to feed to the semiconductor block. This is how each solar cell is connected to originate a working build it yourself solar panel. The solar energy captured in each individual solar cell is send through the conductor wires to a central location in the semi conductor block. From there the energy is able to be uniformly sent to your battery banks where it can be stored or sent to your inverter to be used in the home.

Step 3 - setup the solar panels

Where you decree to find your build it yourself solar panels is just as prominent as ensuring the preliminary building is done correctly. You need to find the best location nearby your home where your panels will receive the maximum whole of full sunlight throughout the day. This is why you see so many solar panels located on the roof of houses. Someone else idea is to establish a tall mounting pole in your garden or backyard to mount your build it yourself solar panels in a high location, but ensure that it will be kept out of the shade of overhanging trees.

Step 4 - associate the inverter

The final stage in generating electricity from solar energy is by connecting an inverter to your battery kit. This is how the solar energy collected from your build it yourself solar panels is converted into the definite current to be fed directly into your homes power grid. The solar energy generated from your solar panels is fed through to your inverter as a direct current (Dc), this needs to be converted into the alternating current (Ac) that your home runs on.

Step 5 - associate the battery

The battery is used to offload any unused electricity that is generated from your build it yourself solar panels. This excess energy can be kept in retain for power outages or camping trips. You may not necessarily need to keep reserves of your solar energy as you may be able to ageement with your current energy victualer to pay you to feed your unused power back into the main power grid.

As you can see with a basic comprehension of each of the components involved with build it yourself solar panels and how these components work together to capture and originate energy, it isn't necessarily a difficult or overcomplicated process. Of course, it is highly recommended you invest in a good detailed guide and added your comprehension of the building process and the technology involved before you go ahead and establish your own build it yourself solar panel.

How to design Build It Yourself Solar Panels in 5 Easy Steps