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Methane does not condense into ice in the warmer atmospheric temperatures of Jupiter and Saturn.
Ice (water in the solid state) will melt when its surface temperature reaches 0 degrees Celcius/32 degrees Fahrenheidt. If the ice is not pure, the melting point can be lower. To keep ice from melting, you need to insulate it against warmer temperatures - sawdust, styrofoam and ceramic materials are all pretty good insulators, although not for long-term storage.
colder temperatures then what the ice is, a working freezer
Temperatures below freezing can form ice, and keep it frozen in dynamic equilibrium. Temperatures above freezing can melt ice, and the hotter it is, the faster it will melt.
it depends if the temperatures rise then the ice CAN melt maybe. if you are talking about ice cubes then yes it can if you leave it there for a while.
Methane does not condense into ice in the warmer atmospheric temperatures of Jupiter and Saturn.
The ice cube condense because the temperature around it was very cold
hail
Condensation implies that you start with a gas or vapor state . . . rocks, by definition are in the solid state, not the gaseous state, so cannot condense. The word, "Ice" implies water in its solid form, and that, for sure is not a rock, or anything a rock could contribute to.
Ice (water in the solid state) will melt when its surface temperature reaches 0 degrees Celcius/32 degrees Fahrenheidt. If the ice is not pure, the melting point can be lower. To keep ice from melting, you need to insulate it against warmer temperatures - sawdust, styrofoam and ceramic materials are all pretty good insulators, although not for long-term storage.
well it does
Ice ice formed from water at very low temperatures.
People often call this an Ice Age. The last glacial period began about 100,000 years ago and lasted until 25,000 years ago.
colder temperatures then what the ice is, a working freezer
To melt refers to the transformation from solid to liquid (think ice to water) To condense refers to the transformation from gas to liquid (think steam to water)
Dry Ice (frozen Carbon Dioxide) is an example of a frozen volatile material. Water ice is also considered a frozen volatile material which simply means a substance can evaporate at normal temperatures and pressures. NASA found examples of such materials in Mercury's polar caps. Comets also contain frozen volatile materials.
It was too hot for metal, rock, or ice to condense