Liquid.
gas
liquid
This would not be gas, these boil at temperatures below room temperature. Such a high temperature indicates a compound such as a carbide, the highest melting element is tungsten.
As the temperature is reduced, the motion of the molecules is also reduced.
The air molecules would go very slow because the air molecules are tight close together.
The volume of gases decreases with temperature; extrapolating the volume/temperature relationship, it looked as if all gases would reach a volume of zero at approximately the same temperature, about minus 273 degrees centigrade.
In Fahrenheit the freezing temperature is 32 degrees. negative three degrees would be 35 degrees below freezing.
The compound you describe would most likely be a gas at a room temperature of about 26 degrees Celsius, given that the compound is at a standard pressure of 1 atmosphere as well. If you specify the compound, or the pressure at which it melts rather than just temperature; one could provide a better and more precise answer, but with your information I have provided my best assumption.
the water molecules would begin to move faster (an increase in kinetic energy). if the water reached 100 degrees celcius (212 degrees Fahrenheit), it will boil.
This would not be gas, these boil at temperatures below room temperature. Such a high temperature indicates a compound such as a carbide, the highest melting element is tungsten.
The Celsius temperature of 32 degrees Fahrenheit would be 0 degrees.
As the temperature is reduced, the motion of the molecules is also reduced.
It would not be the potential energy because potential is the measure of energy that is not in motion yet. When you measure the temperature and it reads 200 degrees YOU WILL FEEL IT because the objects molecules are in motion. If you measured its potential energy at this point of 200 degrees it would probably be close to zero if not zero. When you measure the temperature you are measuring the kinetic energy. The kinetic energy is the measure of how much energy the molecules have that are in motion.
It would equal 0 degrees Celsius.
No, a coastal city at 30 or 40 degrees north would not have a warmer temperature. But, it would have a moderate temperature.
The air molecules would go very slow because the air molecules are tight close together.
I would suppose so as without temperature there is no movement of molecules. That is what temperature is; the movement of molecules. Absolute zero in temperature would mean the complete stoppage of all molecular movement.
The compound would likely be a network solid because 68 degrees C is 154.4 degrees F, which is a good amount of heat energy to be creating to separate the elements in the compound. Therefore, it is network solid, which requires large amounts of energy to separates the elements within it.
The speed of gas molecules is primarily determined by their temperature, not their specific identity. At the same temperature, bromine molecules and air molecules would have similar average speeds.