0 degree C
The boiling point of water at an elevation of 2300 feet is approximately 207.89 degrees F or 97,717 degrees C. The boiling point of water at an elevation of 2300 meters is 198.243 degrees F or 92.357 degrees C.
The boiling point of water is 100 degrees C, but only at sea level, or in other words, at an atmospheric pressure of 1013.2 millibars. As the altitude increases (or the pressure decreases, same thing), the boiling point goes down. This happens at the rate of about 1 degree C for every thousand feet of altitude gained or for every 35 millibars of pressure lost. The boiling point of pure water is 100 0C at 760 mm col. Hg. ((101.325 kPa of atmospheric pressure). This is not a coincidence. The Celsius scale was originally defined around the boiling and freezing points of water.
At sea level water boils at 212 degrees Fahrenheit. For every 500 feet above sea level, water boils about at 0.9F less. So at 4600 feet water would boil at 203.72 degrees Fahrenheit. (212-((0.9/500)*4600) means: normal boiling point (212 degrees) subtract 0.9 degrees per 500 feet (0.9/500) multiplied by elevation (4600 feet).
The Bentley Subglacial Trench in Antarctica is the lowest point not covered by water at -2,540 feet. If you don't count Antarctica, the Dead Sea is the lowest point in the world.
Depends where you are. In Alaska it's below freezing, In New Hampshire it's just above freezing. In Miami it's quite warm.
RIGHT: Technically speaking it 16400 WRONG:16404
The Hellenic trench is about 5000 meters or 16404 feet at the Matapan Deep system.
3200ppm would have no affect on the freeze point of water, so your answer would be 32 degrees.
71 centigrade
16404.19 ft 1 m = 3.28 ft 1 ft = 0.3048 m
The temperature at and near the surface is greater than 0° Celsius (freezing point of pure water), and lower than 100° Celsius (boiling point of pure water). The atmospheric pressure is high enough to maintain the effective boiling point below the maximum surface temperature (about 67° Celsius), up to an altitude of at least 35,000 feet. There is also a volume of water far greater than the water vapor capacity of the atmosphere at average temperatures.
90.82 degrees Celsius
the temperature would need to be higher because the pressure is higher than it is on land. Ex. You're high on a moutain. You want baked potatoes. Instead of it taking 1 hour, it would take 1 hour 30 minutes.
The boiling point of distilled water is 100 degrees Celsius at 1 atmosphere. The bubbles formed on the sides of vessel at the time of heating water are nothing but the air trapped in water. In general, the boiling point of a solution changes with respect to the pressure surrounding the liquid at that particular time. And this change in boiling temperature is directly proportional to pressure. In degrees C the boiling point of water drops .53 degrees per 500 feet. So at 500 feet the boiling point of water is ~ 99.5 degrees. Please note: A factor that elevates water boiling point is the presence of solute or other compounds. This is known as boiling point elevation. To be more precise, the boiling point of water in pure form is lower than a salted water or any other solution prepared by adding compounds.
Ducks have no blood vessels or nerves in their feet so they don't feel the freezing cold water.Their webbed feet also makes them go faster when swimming because if they didn't have webbed feet, water would go right through the spaces and they are adapted to living on water.
they keep your feet from freezing and killing you
the freezing point of water on the Celsius scale = 0 DegreeThe Celsius scale was actually based off of the boiling and freezing points of water. Water freezes at 0 degrees Celsius [32 degrees Fahrenheit (273.15 degrees Kelvin)] and boils at 100 degrees Celsius[212 degrees Fahrenheit ( degrees 373.15 Kelvin)].Here are the conversions:(F for Fahrenheit, C for Celsius, K for Kelvin)Fahrenheit to Celsius: F-32*5/9=CCelsius to Fahrenheit: C*9/5+32=FFahrenheit to Kelvin: (F-32)*5/9-273.15=KKelvin to Fahrenheit: (K+273.15)*9/5+32=FCelsius to Kelvin: C-273.15=KKelvin to Celsius: K+273.15=CNote: The boiling and freezing points are based on sea level. The boiling point of water increases by 0.9 degrees Fahrenheit per 500 feet of elevation; the freezing point is barely affected as it doesn't deal with gas molecules like boiling does, and the elevation affects it because of lessened air pressure.newtest3what about the boiling point????