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The boiling point of water decrease when the altitude increase and the atmospheric pressure decrease.
The boiling point of water is lower at high altitude; the freezing point is practically not affected.
All you have to do to reduce the boiling point of water is go to a higher altitude and boil it.
At a high altitude, water reaches its boiling point at a lower temperature because of a lower air pressure holding it in its liquid form.
A "water boiling alert" means to boil water. At 1 ATM of pressure, water does not boil until 212°F (100°C). At a higher altitude, the boiling point is lower, but not by much. No, when there is a "water boiling alert," boil the water.
The boiling point of water at this altitude is 84,2 oC.
high altitude
Depends on the altitude of the location. In salt lake city, the altitude is about 4330 feet, which makes the water boiling point about 96 degrees Celsius (or 205F).
The boiling point of water decrease when the altitude increase and the atmospheric pressure decrease.
The boiling point of water decrease when the altitude increase; the value at Johannesburg is near 94 0C.
The boiling point of water is lower at high altitude; the freezing point is practically not affected.
In general, the higher the altitude, the lower the pressure, and the lower the pressure the lower the boiling point.
All you have to do to reduce the boiling point of water is go to a higher altitude and boil it.
100 co at sea level, it varies what altitude your at.
At a high altitude, water reaches its boiling point at a lower temperature because of a lower air pressure holding it in its liquid form.
The boiling point of water changes with altitude. While it boils at 100C at sea level, at the summit of Mount Everest water would boil at a lower temperature of 72C.
Boiling point decrease at high altitude.