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See the Web Links to the left for a table of the vapor pressure of water at various temperatures.
it will all boil away and you are left with water vapor and whatever you boiled it in
Vapor pressure is defined as the pressure exerted by a vapor in thermodynamic equilibrium with its condensed phases at a given temperature in a closed system. Vapor pressure is also known as equilibrium vapor pressure.
Because it is made of the (pure) vapor of (??... yes!!): WATER, so it does NOT contain anything nonvolatile to be left over.[Just think it over (and over) and you'll find how logic this is, one would have imagined it by himself].
Burning produces smoke (carbon) and gasses, such as Carbon Dioxide and Carbon Monoxide, along with water vapor. Ash is left after the wood is burned. We use our wood ash as fertilizer in our garden, for our grapevines, etc.
When vapor refrigerant is pulled out of a cylinder the vapor is reduced and the liquid boils to replace the vapor that has left the cylinder.
It is the percentage of a refrigerant that is either liquid or vapor. So looking at a R-22 Enthalpy chart, the first number at the base you see is 10. That 10 represents the percentage of vapor to liquid. In other words, you have 90% liquid at that point, and 10% vapor. As you move across the chart from left to right, that would be equivalent to the refrigerant boiling... as it goes through latent heat and the refrigerant boils off, the percentage of liquid to vapor gets smaller. When you get to 9... that is equal to 90% vapor/ 10% liquid. The outer lines of that dome shape would be equivalent to, on the left hand side, absolute liquid and all the way to the right hand side, absolute vapor.
So the refrigerant won't go into sensible heat and reject the process because no vapor is left to condense. This causes the liquid to drop below the wondering saturation temperature of 125°.
See the Web Links to the left for a table of the vapor pressure of water at various temperatures.
water vapor forms a musk,dew,or left over water droplets
Refrigerant for a 1996 Buick Skylark is inserted into the low pressure AC hose. This hose is found on the left side of the engine bay.
400 degrees left 500 degrees right and 654 degrees left
There are 90 degrees in a left angle as there are in a right angle but the term 'left angle' is rarely used
I have a 1993 500sel. Under the hood, on the left, near the hinge is a sticker which says R134a refrigerant. You might want to check yours
Check the refrigerant pressure. There is a sensor that detects the pressure of the refrigerant. If the pressure is not high enough the compressor will never engage.
90 degrees
The same as in a right angle which is 90 degrees