Air is a mixture; it doesn't have a melting or boiling point. It has a mixture of carbon dioxide, ozone, oxygen, nitrogen, helium, etc. look up those gases separately and you will get answers.
please correct me if im wrong but i think everything that doesnt burn has a melting point Everything has a melting point, no matter how hard or dense. Even diamonds can melt if hot enough. Not everything has a melting point. Some things never change into liquid, they go from solid to gas. Dry Ice does this at room temperature. This process is called sublimation.
Living on a water table like this is never an easy situation. There are a few different options that would all definitely suffice for this particular occasion, though I would recommend vinyl: http://knol.google.com/k/new-basement-flooring-options#
All three types are parts of the 'rock cycle', the never ending cycle of erosion, deposition, lithification, metamorphism, melting, and solidification.
Once a sample has been melted, it may have decomposed slightly. Contamination with a decomposed product will change the MP of the sample, so a fresh sample must always be used for each new test.
Antarctica is a continent and continents do not melt. Today, the ice shelves at the edges of Antarctica are deteriorating from underneath, due to warming ocean waters. The ice sheet that covers 98% of the continent does melt and freeze seasonally. There is no exact answer to your question, but scientists have documented a trend with several options. One is that the continental ice sheet isn't melting.
Helium doesnt have a melting point as it will never form solid.
possibly if it has been contaminated by other substances (as compared to original boiling point - it seems as though it has 2 different boiling points) things such as sodium chloride (table salt) raise the boiling point of water and lower its melting point note though that a pure liquid can never have 2 different boiling points - the boiling point is a property of a a liquid and will never change no matter what. alternatively if the fluid concerned is a mix of 2 different liquids (eg. alcohol mixed in water) the liquid with the lower boiling point (eg. alcohol) will boil off first, then the remaining fluid will continue heating up until the 2nd boiling point is reached (eg. of water). thus the fluid seems to boil at 2 different temperatures
No, melting is never chemical! Neither is boiling, freezing, etc. Those are changes of 'the STATE of matter' and purely physical.
An impure sample will have a lower melting point, and will also have wider melting point range than that of a pure sample of the same substance. a sharp melting point range can also indicate a eutectic mixture
A quality of a substance that never changes is one of the reasons why density is a characteristic property
helium is a gas so it doesnt meltThe melting point of Helium is
please correct me if im wrong but i think everything that doesnt burn has a melting point Everything has a melting point, no matter how hard or dense. Even diamonds can melt if hot enough. Not everything has a melting point. Some things never change into liquid, they go from solid to gas. Dry Ice does this at room temperature. This process is called sublimation.
If the water is actively boiling, it is never more than 100 degrees Celsius (212°F).When water is not boiling (because of pressure or lack of nucleation points), it can become hotter than 100°C, a process known as superheating.
If the water is actively boiling, it is never more than 100 degrees Celsius (212°F).When water is not boiling (because of pressure or lack of nucleation points), it can become hotter than 100°C, a process known as superheating.
If the water is actively boiling, it is never more than 100 degrees Celsius (212°F).When water is not boiling (because of pressure or lack of nucleation points), it can become hotter than 100°C, a process known as superheating.
Hmmm, I have never seen or heard of hot oil boiling.
To ensure the boiling rocks boil at the same temperature each time, you would need to control the heat source and monitor the temperature of the rocks using a thermometer. Consistent heat application and precise temperature monitoring will help to achieve uniform boiling temperatures. Additionally, using rocks of similar size and composition can also contribute to more consistent boiling temperatures.