C.Europa
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At temperatures above 100 degrees Celsius (212 degrees Fahrenheit), liquid water will boil and turn into water vapor. If it is too hot for liquid water to exist, the water will either evaporate or turn into steam, depending on the specific temperature.
Mars is a planet that is too cold for liquid water to exist on its surface. Almost the entire surface of Mars is covered in ice.
the presence of liquid water on Earth's surface, which enables life to exist. Other planets in our solar system are either too hot or too cold to support liquid water on their surfaces, making Earth unique in its ability to sustain a diverse range of organisms.
Water vapor condenses on a mirror because the mirror’s surface is cooler than the surrounding air, causing the water vapor in the air to lose heat and transform into liquid droplets on the mirror's surface. This happens due to the process of condensation, where the water vapor transitions from a gas to a liquid state.
It is too cold for liquid water to exist on the surface
Mars is a planet that is too cold for liquid water to exist on its surface. Almost the entire surface of Mars is covered in ice.
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Water can exist in three states; as liquid water, as solid ice, and as the gaseous water vapor. In the presence of a cold surface such as the outside of a glass containing ice, vapor in the air will condense into liquid water on the cold outside surface.
Titan has no liquid water, it is too cold. But it does have oceans of methane. On Earth the temperature is way to hot for methane to be in liquid state. But on the cold surface of Titan the temperature and atmospheric pressure is just right for methane to exist in liquid form.Similar to how the temperature on Earth is just right for water to exist in liquid form.
No. Venus is far too hot for water to exist on its surface.
The temperature on Mars is too cold for water to exist in liquid form on its surface.
No. Venus is too hot for liquid water to exist.
At temperatures above 100 degrees Celsius (212 degrees Fahrenheit), liquid water will boil and turn into water vapor. If it is too hot for liquid water to exist, the water will either evaporate or turn into steam, depending on the specific temperature.
It is super cold.
Liquid water cannot exist for long on Mars' surface because of the low atmospheric pressure and low temperatures. The thin atmosphere on Mars leads to rapid evaporation of liquid water, while the cold temperatures cause it to freeze quickly. This combination prevents liquid water from persisting on the surface for an extended period of time.
Condensation occurs when steam comes into contact with a cold surface, causing it to lose heat energy and transform into liquid water. This process is the opposite of evaporation, where liquid water turns into steam by gaining heat energy.