the mean average of 78 and 100 is 89
78C
21C to 78C
The substance would be in a liquid and gas state, this would be due to vaporization that is happening during boiling.
Cyclohexane's melting point is about +6 degrees Celsius. Dry ice (solid carbon dioxide) maintains a temperature of -78C in normal conditions. Cyclohexane will thus freeze on dry ice. In fact, a closed container of cyclohexane would freeze on regular, water ice. Regular hexane (linear) has a freezing point around -100C, and will remain a liquid on dry ice, much as ethanol or acetone do.
35 c
80 degrees Celsius
Upon Review of the question: THIS ANSWER IS FOR THERMOSTAT TEMPERATURES, NOT AVERAGE RUNNING TEMPERATURE, IF THEY ARE ANY DIFFERENT. 1990s 5th Generation Accords: Open 169-176. Full open: 194. Therefore I believe that the 180-degree thermostats are what you want, but I'm not sure if the stamped-on temperature is opening temperature or running temperature?? 180F ~=83Celcius, so get close to that. 78C = 172F, about the opening temperature.
The boiling point of alcohol is 173F/78C. Similarly the boiling point of pure water is 212F/100C. Hence the mixing of water and alcohol will have a boiling point that lies between these two ratios.
Jacob S. Dreyer has written: 'Exchange Rate Flexibility (AEI symposia ; 78C)' 'Composite reserve assets in the international monetary system' -- subject(s): International finance, International liquidity, Special drawing rights
Most likely in between both pure substance Bp.'s, this cannot be calculated, it has to be experimentally measured and determinated (Tx,y diagram)Ethanediol: Bp. 197.3 °C (470 K)Ethanol: Bp. 78.4 °C, 352 K
Nothing I can think of. Maybe something really esoteric, but common chemicals don't boil at that exact temperature. The two closest common chemicals are hexane (68.7C) and carbon tetrachloride (76.7C). Ethyl alcohol's boiling point is about 78C. Isopropanol boils at 82.6C.
Liquid alcohol will change to vapor when its temperature reaches its boiling temperature. When alcohol reaches its boiling temperature, each molecule of alcohol has enough energy to separate from each other, so each molecule can move freely. The boiling point of liquid alcohol is 351K or 78C