Water can remain liquid at a temperature above 100 degrees, C., when the pressure on it is greater than the pressure found at average sea level.
At 105 degrees Celsius, steam will remain in the gaseous phase as it is above the boiling point of water (100 degrees Celsius). Steam will continue to condense into liquid water only once it cools down below the boiling point.
Mercury turns to a liquid at 25 degrees Celsius.
At 800 degrees Celsius, aluminum is in its molten state, meaning it has melted from its solid form into a liquid. This temperature is above the melting point of aluminum, which is around 660 degrees Celsius.
Twenty degrees above the boiling point of water (100 degrees Celsius) would be 120 degrees Celsius.
At 20 deg C, at atmospheric pressure, bromine is a liquid. At 58.8 deg C it will boil.
Yes, it will remain a liquid at that temperature.
If the liquid is water then it is 10 degrees above freezing point which is 0 degrees Celsius
32 Degrees Fahrenheit or 0 degrees Celsius Below this temperature H2O will remain in a solid form, above this temperature H2O will be in a liquid form.
Any substance with a melting point above this given temperature.
No, milk typically freezes at around -0.55 degrees Celsius. If the temperature is above that, milk will remain liquid until it reaches that freezing point.
Water at 50 degrees Celsius is in the liquid state. At this temperature, water is above its freezing point (0 degrees Celsius) and below its boiling point (100 degrees Celsius), allowing it to exist as a liquid.
Liquid water can exist at (and above) 100 degrees Celsius if the pressure is increased above one atmosphere (about 100 000 Pascals). The high pressure squeezes the molecules together, and does not allow them to separate into a gas. This forces it to remain as a liquid, despite the high temperature. Of course, water vapour (steam) can certainly exist above 100 degrees Celsius.If you're interested in how the two phases exist together, if you heat water to 374 degrees Celsius and increase the pressure to 218 atmospheres, the properties of the liquid and the vapour merge together to form only one "supercritical fluid" phase.
Gold remains in solid state at 2600 degrees Celsius, as its melting point is 1064 degrees Celsius. At 1064 degrees Celsius and above, gold would melt into a liquid state.
20 degrees above freezing in Celsius is 50 degrees Fahrenheit
At 1000 degrees Celsius, iron is in its molten state, which means it is a liquid. This is above its melting point of approximately 1535 degrees Celsius.
At 105 degrees Celsius, steam will remain in the gaseous phase as it is above the boiling point of water (100 degrees Celsius). Steam will continue to condense into liquid water only once it cools down below the boiling point.
At 115 degrees Celsius, sulfur will change from a solid state to a liquid state. This temperature is above the melting point of sulfur, which is around 112.8 degrees Celsius.