The planet that is hot but not too hot for ice is Saturn. Although the temperatures on Saturn can range in the thousands of degrees Kelvin, ice is still able to form. The temperature of Saturn’s upper atmosphere ranges from a minimum of around 120 K (-153°C) to a maximum of around 330 K (+57°C).
This range of temperatures is still low enough to allow for the formation of ice. Another interesting feature of Saturn’s atmosphere is that it has different temperatures at different altitudes. So, although the upper atmosphere is too hot for ice, the further down into the atmosphere you go, the cooler it gets, allowing for the formation of ice.
This phenomenon allows scientists to study the behavior of ice particles in the atmosphere and how they interact with different elements.
What planet is hot and cold at the same time?
The planet Venus is hot and cold at the same time due to its very unique atmosphere. Its atmosphere consists of sulfuric acid clouds, and it can be as hot as 464 degrees Celsius (867 degrees Fahrenheit) at the surface.
However, Venus’ atmosphere also traps in heat and acts like a blanket, making its day and night side temperatures virtually the same at an average of a balmy 462 degrees Celsius (864 degrees Fahrenheit).
This makes Venus a runaway greenhouse planet — what goes up, stays up; not allowing the heat to escape in temperatures colder than the surface.
What planet is hot wherever you go?
The planet Mercury is hot wherever you go. It is the closest planet to the Sun, and as such is constantly exposed to intense levels of solar radiation. Mercury has an average surface temperature of 433°C (801°F), making it the hottest planet in our Solar System.
Mercury also has extreme temperature variations, with day temperatures reaching up to 427°C (801°F) and night temperatures plunging to -180°C (-292°F). This extreme heat is caused by a lack of atmosphere on the planet, which makes it unable to retain any of the heat from the Sun.
How hot is Pluto?
Pluto is the most distant planet (dwarf planet) in our Solar System and it is very cold. It is estimated that the temperature on the surface of Pluto is -387°F (-233°C). This is about 40 degrees warmer than the average temperature of its very cold and dark moon Charon, which is -427°F (-253°C).
As far as temperatures go in our Solar System, Pluto ranks as one of the coldest, rivaled only by Triton, a moon of Neptune. As Pluto is further away from the Sun and receives less light, its temperature may dip below this already frigid value.
However, recent research has also indicated that Pluto’s temperature may also be above -387°F (-233°C), as the dwarf planet is warmed by internal heat. Additionally, it’s possible that Pluto’s temperature may actually be warmer in some areas due to the presence of methane ice, which has the capability to absorb heat from the Sun.
Is there a planet with hot ice?
No, there is no such thing as a planet with hot ice. Hot ice is an oxymoron because, by definition, ice is a solid at temperatures below its melting point. Therefore, ice is not capable of being hot.
However, science does indicate that there could be a planet similar to Earth on which liquid water exists on its surface, even at temperatures low enough for it to freeze. This is because the pressure of the atmosphere on a planet can be so great that it offsets the cooling effect of the extreme temperatures, allowing liquid water to form and remain stable on the surface of a planet.
This phenomenon is known as “cold saline water” and has been observed to exist on the surface of some ice-covered moons in our solar system.
What planet has ice and fire?
The planet of Jupiter is known to have both ice and fire. This dual aspect of Jupiter is largely due to its composition. Jupiter is made up mostly of hydrogen and helium, with small amounts of water, dust, and other particles, including a rocky core.
The combination of these elements creates both extremes of temperature. While the upper atmosphere of Jupiter is extremely hot, reaching temperatures of up to 50,000 degrees Celsius, other areas of the planet can reach temperatures as low as -145 degrees Celsius.
This creates an environment of nitrogen ice, frozen ammonia, and methane ice particles. This ice can be seen around Jupiter’s poles and rings, creating a unique and beautiful appearance. Jupiter also has a diverse array of lightning storms which create lightning strikes of up to 8,000 volts.
This activity, combined with the vastness of the planet, creates an environment which is both icy and fiery.
What are the two hot planets?
The two hottest planets in our Solar System are Venus and Mercury. Venus is the second closest planet to the Sun and is known for its thick atmosphere made up mostly of carbon dioxide and nitrogen. This thick atmosphere traps in heat from the Sun and creates a ‘greenhouse effect’ on the planet, which largely contributes to its extreme temperatures.
On average, Venus is the hottest planet in the Solar System with a mean surface temperature of around 830°F (440°C).
Mercury is the closest planet to the Sun and is covered in a thick layer of dust that provides insulation for the planet. This insulation traps in heat from the Sun and boosts the temperature to an average of 801°F (427°C) on the side of Mercury that faces the Sun, and an average of -273°F (-170°C) on the side that is away from the Sun.
The difference in temperature between the two sides of the planet is one of the greatest in the Solar System.
What happens when Mercury gets hot?
When Mercury gets hot, it can get up to a staggering 800°F (427°C) during its closest approach to the Sun in its 88-day orbit. This extreme heat causes the planet’s surface to rapidly expand and contract, creating wrinkles and faults on its surface.
The temperatures also cause radioactive materials to drift up to the surface, causing some of those wrinkles, while causing the rocky surface to darken. As the temperature on Mercury rises, the planet’s thin atmosphere is heated up and becomes dense.
This thick atmosphere traps the energy emitted by the Sun and lowers the temperature of the surface, preventing the planet from becoming much hotter than it already is. Despite its extreme temperatures, some areas near the poles of the planet remain relatively cooler due to the lack of sunlight.
These areas could potentially harbor vast ice sheets and help to explain the observations of the planet’s weak magnetic field.
Is Mercury too hot for water?
No, Mercury is not too hot for water. In fact, there is evidence to suggest that water may have once existed on the planet in the form of ice in the shadowed polar craters. Recent research from the Messenger mission has shown that the core of Mercury contains mostly liquefied sulfur, suggesting that temperatures could drop to –273°C in the interior of the planet.
However, due to the fact that Mercury has no atmosphere to hold onto heat, surface temperatures can range from a frigid –183°C during the night to a scorching 427°C during the day. The presence of any water on the surface of Mercury would quickly evaporate due to these extreme temperature fluctuations.
Still, the discovery of an apparently water-bearing layer in the planet’s subsurface may hint to the existence of liquid water hidden beneath the planet’s surface, though more research would be needed to verify this.
