Sunscreen on the planet with snow

If you have decided to search for Kepler-13Ab, assume that you had already worn a special suit to protect your 5000 degrees Fahrenheit surface. The day will be really endless, because the planet is located close to the nearest star. It is clearly closed, which means that one part of the planet has always had to face its sun and the other is always sunk in darkness. So day and night are present only if you travel from the light around the planet to the dark sides.

But the fact is that this planet is not rotated, there is hardly any strange thing about it. If you wanted to walk on the always-dark side of Kepler-13 AB So you could have snowshoeing during some night - except that the snow hit is not made of hydrogen and oxygen, it is made of titanium dioxide. Titanium dioxide is the only white stuff that blocks the sun's rays in some types of sunscreen. But at Kepler-13Ab, it falls on the dark side of the planet in the form of snow, to some extent scientists have discovered using the Hubble Space Telescope.

This comment was first made by a team of Pennsylvania State University, who is studying the weather on Expplant to learn more about life for life (including human life). His recently published study on the events of the unique weather at Kepler-13-AB is a test case for seeing and understanding other planets. Thomas Betty, an assistant professor of astronomy at Pan State, said how we can understand more about the planet's atmosphere, when we study small planets that are more difficult to see in more complex features in their environment.

Scientists have multiplied a unique ice for "snow". Kepler 13-AB's atmosphere is cooler at high altitudes, which is unusual. At other similar planets atmospheric titanium dioxide helps to heap the upper atmosphere, but on this planet, it is blown around with high winds and atmospheric temperature can not affect the gradient. When titanium dioxide gets more cool in the atmosphere of the planet, then it dissolves in crystal-shaped flakes of clouds. The planet's gravitational pulls out heavy suspension from the suspension and pulls it down on the ground in the ice storm.