The Rankine scale of temperature starts at absolute zero (like Kelvin) but the degree spacing is the same as Fahrenheit; thus 0 degrees F = 459.67 degrees Ra. So to convert from Fahrenheit to Rankine just add 459.67.
a °C = (4/5)a °Réaumur = [32 + (9/5)a] °F
b °Réaumur = (5/4)b °C = [32 + (9/4)b] °F
c °F = (5/9)(c - 32) °C = (4/9)(c - 32) °Réaumur
t °C = (t + 273.15) K
TK K = (TK - 273.15) °C = [1.80 * (TK - 273.15) + 32] °F = 1.80 TK °Rankine
According to the Rankine scale, water turns into ice at 491.67 degrees Rankine. This is equivalent to 0 degree Celsius or 32 degrees Fahrenheit. Rankine scale is a temperature scale named after William John Macquorn Rankine.
Commonly held as 491.67, but depends on the pressure. This is at standard ambient conditions. (1 atmosphere, or 101.325kPa)
60 degrees Fahrenheit = 519.67 degrees Rankine.
The boiling point is the temperature at which water turns into a gas.
Yes. Every solid has a melting temperature above which (hotter) it is a liquid and beneath which (colder) it is a solid. Answer For example, water becomes ice at zero degrees Celsius / 32 degrees Fahrenheit. That temperature is the melting temperature for ice. Hotter than that temperature will turn ice into water, and colder than that temperature will turn water into ice. 0 degrees Celsius is also called the triple point because water, ice, and water vapor can all exist at that temperature without changing their forms. In other words, at that temperature, ice can stay ice, water can stay water, and water vapor can stay water vapor.
The unique feature of water in response to temperature changes is known as the anomalous expansion of water. When heated, ice and water first contract till the temperature exceeds 4 degrees Celsius at which point expansion starts.
Do you mean at what temperature does air turn into a liquid or at what temperature does water condense out of the air?If the latter then air itself has not water in it and thus can never turn into water. It's the moisture (water vapor) in the air that will condense out of the air and turn into a liquid. This begins to occur at the dew point which depends on the how much moisture there is in the first place (humidity), the pressure, and the temperature. For example, current conditions where I am: Temp = 74 F, Pressure = 29.97 inches, Relative Humidity = 44%, dew point = 51 F. So this means that if we keep the pressure constant and drop the temperature to 51 F, water will begin to condense out of the air.If the former then, that's harder (for me anyway to answer). Usually the air is compressed AND cooled. At atmospheric pressure, the temperature would need to be extremely low for liquification. Nitrogen has a boiling temp of -195.8 C (the other gases boil at higher temps) so you would need to get the temperature below that.
yes, because temperature effects the concentration of hydrogen ions, which is what in turn effects pH values
boil the water
water
Water don't turn instantly into ice; this depends on the temperature.
The boiling point is the temperature at which water turns into a gas.
Water can evaporate no matter what temperature it is. It has a higher rate of vaporization at higher temperature however.
Since the water is at a higher temperature than the ice, it transfers heat to the ice. This in turn raises the ice's temperature above its melting point of 32oF which turns the ice to water.
heating of water by the sun's energy which increases the temperature of the water causing some of the water to turn into water vapour at a temperature below the water's boiling point temperature.
Decrease the temperature and make it turn into ice.
Yes. Every solid has a melting temperature above which (hotter) it is a liquid and beneath which (colder) it is a solid. Answer For example, water becomes ice at zero degrees Celsius / 32 degrees Fahrenheit. That temperature is the melting temperature for ice. Hotter than that temperature will turn ice into water, and colder than that temperature will turn water into ice. 0 degrees Celsius is also called the triple point because water, ice, and water vapor can all exist at that temperature without changing their forms. In other words, at that temperature, ice can stay ice, water can stay water, and water vapor can stay water vapor.
100 degrees Celsius
You don't decrease the temperature, you raise the water's boiling point, or increase the water's temperature......
There has to be a way to turn down the temperature somewhere on your water heater. There is either a dial on a manual control or up and down arrows on an eletronic one.