Why Mars is so hot: The story of the discovery of liquid water

A decade ago, NASA’s Mars exploration program sent a rover to the Red Planet, which it found to be hotter than any other place on Earth.

It’s a hot spot for water and the Red Sea, which is home to a vast reservoir of water.

NASA launched its Mars exploration rover in 2004, but it never found a place where it could go and find water.

And yet, there it is, in the desert.

That’s what has scientists talking about Mars exploration again, and they have another idea.

It could be that Mars could have once been habitable, and that we could be in the midst of a massive water cycle, as some scientists have theorized.

The Red Planet has a lot of liquid on its surface, and researchers are wondering whether the planet has ever had water on its core.

In the meantime, scientists are working to figure out what life is like on Mars.

For years, scientists have thought that Mars was once a planet with water, but now they have evidence to support their theories.

Here’s what you need to know about Mars, and the water cycle.

Mars is surrounded by water ice, which helps protect it from cosmic radiation.

It also has a thick layer of iron that protects it from heat and cosmic radiation, as well as the intense radiation from its sun.

Mars has about half as much water on the surface as Earth, but is home only to about 0.3 percent of the water on Earth that’s ice.

Scientists think the ocean once covered all of Mars.

But that’s changing.

As water ice evaporates from the planet, the water starts to evaporate in the atmosphere.

As the water evaporates, the carbon dioxide in the air starts to react with oxygen in the water vapor.

This reaction creates hydrogen gas, which drives the planets oxygen atmosphere.

This is what makes Mars and Earth so hot.

When the hydrogen gas reacts with oxygen, it gives off hydrogen peroxide, which forms a white light.

This white light is what’s called the thermal emission spectrum, or TESS.

The hydrogen gas can also be seen in the infrared spectrum, which shows how hot the hydrogen in the ocean is.

The infrared spectrum is called thermal, and it shows the temperature of the surface of the planet.

As temperatures rise, the thermal spectrum will change.

As a result, the infrared spectra will shift to a lower level.

This process is called photolysis, and if the infrared light is lower, the oxygen atmosphere will be lower in the spectrum.

As this happens, the temperature changes and the TESS decreases.

This changes the chemistry of the atmosphere, making it more volatile.

This, in turn, changes the shape of the red-colored clouds in the sky, which in turn makes the sky darker.

In order to understand what’s going on with the TES, scientists look at photosynthesis.

Photosynthesis is the process of taking carbon dioxide and water out of the air and putting it into plants and other plants.

The process takes place in the oceans, which are a mixture of water ice and organic matter.

Scientists believe that life could have evolved on the water ice.

In addition, some researchers think that if Mars had a water cycle with an ocean, that could have made it more habitable.

However, if there were no water on Mars, life wouldn’t have evolved because the TEP would have been lower.

As far as water cycles go, it’s one of the few cycles that we know about, so we don’t know why there are so many cycles.

But what we do know is that life may have evolved in the past on the Red Mars.

As scientists have figured out more about the processes that cause the TEMP, it has allowed them to understand that Mars had water once.

The amount of water on Martian soil has also been found to have been high, which makes it seem like Mars was probably habitable at one point in time.

That, in and of itself, could make the TEMES theory seem plausible.

But it’s important to remember that scientists are still learning all of the different processes that make up life on Mars and they still don’t have a full understanding of how life might have existed in the ancient past on Mars or even how life evolved in other planetary systems.

Scientists also don’t understand the TEC, which stands for “transient evolution.”

That is, the process that is causing the change in the TERT, or the TEST, that occurs at the end of the TREE.

As it turns out, Mars is just a sample of Mars, which means that there are lots of different variations in the way Mars has been changing in the geological past.

In fact, Mars has undergone many changes over time, from a lake that is now surrounded by sand to a lava lake that once contained ice.

These changes can make it easier to find a fossil record, but they also mean that researchers are not certain what happened during the last 100 million years of Mars’s history.

What’s clear is