273 kelvin is colder than 280 kelvin.
If the molecules in question have a solid phase, for example water which goes from liquid to solid, namely ice, then least kinetic energy is the solid phase, with minimum kinetic occurring at 0 Kelvin (absolute zero).
373 kelvin 100 celsius kelvin is basically celsius + 273
100 degrees Celsius and 373.15 kelvin
Lots of things. For example: - Water freezes (liquid->solid) at 32 degrees Fahrenheit, 0 degrees Celsius, and 273 Kelvin. These temperatures are also the melting points (solid->liquid). - Water vaporizes (liquid->vapor) at 212 degrees Fahrenheit, 100 degrees Celsius and 373 Kelvin. This is also the condensation point (vapor->liquid). Water does not commonly form a gas, but rather a vapor which is slightly different (but really just the name of a gas that is normally a liquid). - There is latent heat in water so you can remove energy without changing the temperature of the water (only exactly at a phase change though). - The specific heat of water is 4.18 Joules/mole.
273 kelvin is colder than 280 kelvin.
Water is a liquid at this pressure and temperature.
400 Kelvin is equal to 126.85 degrees Celsius, or 260.33 degrees Fahrenheit. At this temperature, water has boiled, and is a gas (steam).
Water would be solid at 199 K, since water's freezing point is 273 K, or 0°C. (To convert Kelvin into Celsius, simply subtract 273.15)
To convert from degrees Kelvin to degrees Fahrenheit, firstly subtract 273.15, to turn into degrees Celsius, then multiply by 9, divide by 5, and add 32. In this instance:280 - 273.15 = 6.85 x 9 = 61.65 / 5 = 12.33 + 32 = 44.33Therefore, 280 degrees Kelvin is equal to 44.33 degrees Fahrenheit.
If the molecules in question have a solid phase, for example water which goes from liquid to solid, namely ice, then least kinetic energy is the solid phase, with minimum kinetic occurring at 0 Kelvin (absolute zero).
Water freezes at 273 on the Kelvin scale. To covert Kelvin to Celsius, you subtract 273 from the Kelvin number, so 273 Kelvin is equal to 0 degrees Celsius, the freezing point of water.
Check for a blown fuse in one of the phase legs.
280 ml of water is 280 grams
The condensation point in Kelvin is 373 Kelvin. At this temperature, the liquid and gaseous state of water exist in equilibrium.
Water boils at 373.15 Kelvin.
Precisely 273.16 degrees kelvin