When you think about it, the sun has been a part of our culture for quite a while now.

But we don’t often think about how it affects us in real life.

We think of it as something that comes out of the sky, that we’re supposed to keep at a distance from.

But the sun is, in fact, a much more important part of the climate system than we’d like to believe.

According to climate scientist James Hansen, it affects the entire planet in a very significant way, and we have to start looking at how it impacts us.

“There’s a very large impact that the sun puts on our climate,” he told Buzzfeed.

“There’s an effect on precipitation, there’s an impact on temperature, there is an effect in the amount of energy that we use and the impact of solar radiation on our bodies.”

According to the NASA Goddard Institute for Space Studies, the amount that we get from the sun every day has a major impact on the global climate, with some areas like the Middle East seeing temperatures rise as much as 10 degrees Fahrenheit and the Atlantic seeing temperatures drop as little as 3 degrees Fahrenheit.

So what exactly does this mean?

For one, the Earth has been getting warmer over the last century.

According the latest report from the National Oceanic and Atmospheric Administration, the world has been warming for about the past century, with the hottest year ever recorded, 2015, occurring in 2016.

The effects of this warming are already starting to be felt across the country, with more and more areas in the US experiencing extreme heat, with heat waves already hitting the coasts of the United States.

“The problem is the oceans are getting warmer, the land is getting warmer,” Hansen said.

“So what happens when we warm the oceans and the land, what happens to the food web?

How does that happen?

It’s going to impact our weather, our food security, our biodiversity, our water and the environment.”

As a result of all of this, the average life expectancy for Americans is now decreasing, and the number of people dying from disease is rising.

This trend will only continue to accelerate as the oceans continue to warm.

What you need to know about the solar storms that hit EarthThis is one of the most powerful solar storms the planet has ever seen.

Here’s what you needto know about it:How big is the sun?

The Sun is the largest celestial object in the universe, and it’s about twice the size of the Earth.

The Earth is the second largest planet, after the Sun.

In fact, the Sun has a diameter that’s almost the same size as Earth.

It’s the closest star in the night sky to the Earth, and as you can imagine, the Milky Way is a huge part of it.

According a study by scientists at the University of California at Santa Cruz, the diameter of the Milkyway is about 100,000 light years in diameter.

So, if you were to look at the Sun from a distance, you would see a lot of stars, planets and the Milky Ways themselves.

And those are the things that most people think of when they think of the sun.

But what’s really going on behind the scenes is something much more complicated than that.

The Sun is a supernova.

The light from a supernovae is made of energy, and what happens in a supermoon is that energy is thrown out of it and travels through space, forming new stars.

In the process of creating new stars, a lot more energy is being lost in the process than if the star had been just a normal star.

So as more energy moves through the star, the star emits more energy and more of that energy gets sucked out of its surroundings, causing more starlight to be reflected off the planet’s surface, creating more intense ultraviolet radiation.

When we look at a super moon, the super moon is created when there is less sunlight hitting the Earth’s surface than there was before.

This happens because the amount and intensity of light that’s reflected from a sunspot, a super star, or the surface of another planet is much greater than before.

“When we have a super solar eclipse, it’s like having a lot less sunlight in the sky,” Hansen explained.

“If you have less sunlight, it can create a super sun.

And the sunspots we see on the ground are a reflection of the super sun, but when we see a super eclipse, that light is being reflected off a much bigger, brighter object.”

A super moon also creates more solar radiation than an ordinary solar eclipse.

In the case of a super-moon, that radiation has a much longer wavelength.

It has a wavelength of about one billion kilometers, which is about 20 times longer than the wavelength of the sunlight you see in the daytime.

“So why are there so many super moon cycles every year?

Well, the reason we see so many is because there are so many planets in our solar system. We