Solar energy has been around for awhile, but recently it's been recognized as a viable source to keep our environment in check as far as noise and air pollution go. For some, solar energy is a difficult concept to grasp. Lawn decor and calculators are prime examples of some widely used solar powered gadgets, but the looming question for consumers has been, how do solar panels work?

Solar panels are made from special materials that absorb the sun's rays and turn them into electricity that can power all sorts of electronic devices. Devices that we use electricity for everyday without thinking twice about could be powered by solar panels.

A budding technology used today for solar panels is photovoltaic (PV) electricity. It involves the use of specific materials that convert solar energy into electricity. The electricity can be used right away or it can be stored using DC batteries. Either way, we've got power!

Photovoltaic technology includes the use of specific materials that have been recently developed. These materials discharge electrons when persuaded and influenced by solar power. This creates a voltage potential as well as electricity flow. A photovoltaic panel is also called a 'direct energy conversion device' since all of these effects are taking place on an atomic level minus any moving parts.

Photovoltaic panels used to be restricted to space age technology. Satellites and space stations used them for their reliable and continuous conversion of solar power. Outer space has an advantage when it comes to solar energy since the sun's radiation is, at the very least, 50% stronger out there than here on Earth.

People who live more than a mile from an electrical grid are better candidates for solar power use especially those in residential homes. It's significantly more expensive to install power transmission cables than it is to install a solar panel kit. If you fit this criterion then solar energy to power your home is a smart way to go.

Still, how do solar panels work? Understanding solar energy can help answer this question. Solar energy's made up of two kinds of radiation, and the most desirable for solar panels is called "beam radiation". This is what we feel when soaking up sun rays on the beach in June, when there's not a cloud in the sky. Clear days are the best for collecting beam radiation, but the solar panel needs to be placed strategically to gather the most direct sun rays possible if you want to get the most from your solar panel.

The other kind of radiation is "diffuse radiation". This radiation is strewn all over the place (as its name suggests). On a cloudy day, it's the primary radiation source for a solar panel. It's the same thing if you're relaxing under a shade tree diffuse radiation is what you're going to get. Unfortunately diffuse radiation isn't very strong and relying on it alone for solar energy isn't practical.

Needless to say, a bright sunny location is the most desirable place to mount a solar panel. Most of Western America is solid as far as good sun for solar energy goes. Northern climates and coastal states stand to face some difficulties since diffuse radiation is what they get most of the time.

Solar panels are versatile in the sense that they can be set up to meet specific needs. 12 volt, 24 volt, and 48 volt DC systems are the most widely used. 12 volt solar panels can live well over 20 years and fall in the range of 12-14% efficiency.

Solar power is still "alternative energy", and part of that is due to its high cost to produce. They're so expensive because they are made of supremely pure silicon semi-conductor materials. New materials are being explored and they're geared toward lowering production costs, making solar energy more readily available to the general public. Cadmium Telluride based solar panels are one of the new technologies being explored, and if these are successful materials then solar panels should become more affordable for the average citizen. This is great news for the environment as more and more people convert to solar energy, the atmosphere can begin to heal.

It's unfortunate that solar energy is still considered "alternative energy", but that's all changing. If you're considering a conversion to solar power then there are specific considerations to be made upon deciding, but it's definitely a step in the right direction for our planet. The benefits outweigh the cost as far as our environment is concerned, especially the long term effects. Energy independence is a common goal for all, and if you just want to consider solar energy as a back up plan, then the decision is practically already made for you. Why not? The environment will benefit greatly once solar panels become financially available to all.