Sungevity Blog

To be honest, I don’t spend much time staring at the sun, and I would suggest that you don’t either. However, astronomers and other scientists have some great methods that allow them to observe and record the activity happening on the sun.

One of the most well known phenomenons that occur up on our star are solar flares. A flare is a sudden, rapid and intense variation in light. On the sun, these flares occur when magnetic energy that has built up in the solar atmosphere is suddenly released out into space. This release of energy is emitted across the entire electromagnetic spectrum, everything from radio waves, visible light and gamma rays. The amount of energy released in a solar flare is monumental; think millions of 100-megaton hydrogen bombs exploding simultaneously! Solar flares can occur anywhere from less than one a week and up to several a day. The frequency correlates to the Sun’s 11-year cycle.

So you might be saying, “so what?” The “so what” is that solar flares affect us here on earth. Solar flares generate dangerous particles and radiation. However, for the most part, or atmosphere and magnetic field keep us safe. But what about the area surrounding earth?

Satellites in particular are affected by solar flares. When a flare occurs it heats our atmosphere and expands it. This expansion increases the drag on satellites and decreases their lifespan. Additionally the electromagnetic pulse associated with flares can affect the electronics on the satellite.

The most serious threat to our lifestyle occurs during geomagnetic storms, which are caused by coronal mass ejections-a phenomenon related to solar flares. During these geomagnetic storms, the shockwaves can cause high currents in power lines, which in turn can blow out transformers. The most famous blackout caused by a solar storm was in 1989 when the Hydro-Quebec Power Authority and the entire Quebec power grid collapsed, affecting 6 million people!

These events are just one more reminder of the power of our sun. If you are interested in learning more about solar flares, National Geographic TV has an episode on the subject.

-Nat Smith

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We know, there’s no shortage of ways to waste time on the computer, and we’re not trying to get you in trouble with your boss–but before you get back to work, take a look at three useful tools for folks who are concerned about climate change:

Have you calculated your carbon footprint lately?

The CoolClimate carbon calculator covers it all–transportation, energy, even the food you eat and the stuff you buy.  Be sure to check out the feature that lets you compare yourself (or your small business) to other households or businesses–but remember, even if you have the smallest footprint of any American, you’re still generating tons more carbon than most people in the world, so don’t skip the “Take Action” link.

The Good Widget

After calculating your carbon footprint, you might feel a bit despondent, so here’s something to renew your optimism.  The widget below, courtesy of the Carbon War Room, shows the number of solar watts being installed in the US.  Relax and enjoy the lovely vision of the flickering, ever-rising number.

The Wicked Widget of the West

Last but not least, prepare to get depressed again when you check out the Atmospheric CO₂ widget which, like the solar widget, is endlessly ticking upwards.  And on that note…use the tools, share them with your friends and turn off your computer when you’re done.

–Erica Etelson

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Solar energy is dependent on… the sun! Who would have guessed!? As solar studs, I think it’s pretty important for all of us to have (at least) a basic understanding of the star that unequivocally is the reason there is life on earth.

First, a little history; About 4.5 billion years ago, gas and dust coalesced and formed what turned into our solar system (you know, the sun, eight planets, one newly minted dwarf planet named Pluto and other comets and asteroids). Our Sun makes up 99% of the mass in our solar system.

Despite the importance we hold for our sun, it turns out that our personal star is one of over a 100 billion in the Milky Way Galaxy and happens to be pretty average in size. This is a good thing, because stars with a higher mass burn out after a few million years (a blink of an eye when discussing the cosmos). Our sun, on the other hand, is calculated to burn for another 4,500 million years.

The way the sun functions is pretty awesome. It’s essentially a giant nuclear reactor. At its super dense core, hydrogen atoms fuse to create helium at the incredible rate of 700 tons per second. This reaction creates energy. The energy is carried from the core to the surface of the sun with photons-particles of light. It takes the photons more than a million years to migrate from the core to the surface of the sun. The photons then travel down to us at earth.

The sun is about 10,000 degrees Fahrenheit on the surface and 28 million degrees Fahrenheit at its core. Think about that the next time you complain about your summer heat!

-Nat Smith

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Did you know that the optimal solar weather isn’t a bright cloudless day? In fact, sunny days that are partially cloudy are the best days. This is because as the radiation from the sun travels through the atmosphere, it is reduced by absorption, reflection and scattering. But, reflected radiation from sunlight bouncing off clouds (called diffuse radiation) can increase the irradiance-the amount of electromagnetic energy on a surface per unit time per unit area-that eventually hits the surface of the earth.

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If you ever needed evidence of the tidal change sweeping through our world at the commanding heights of energy it is this snippet from the UN: “Clean energy has just overtaken fossil fuel investment”.

Green energy overtook fossil fuels in attracting investment for power generation for the first time last year, according to figures released by the United Nations.  Wind, solar and other clean technologies attracted $140bn compared with $110bn for gas and coal for electrical power generation. The Guardian, where I got this from, noted that more than a third of the green cash is destined for Britain or the rest of Europe.

Shine on indeed, me hearties!

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