water boils at zero degrees then atmospheric pressure will be...........
STP is the same for all gasses an gaseous mixtures: 0 degrees Celsius at a prssure of 1 atm.
Depends on the pressure. The normal boiling point (at 1 ATM of pressure) is 100 degrees Celsius.
At normal atmospheric pressure, water begins to freeze (turn into solid ice) at zero degrees centigrade. ACTUALLY: If saturation occurs at temperatures between 0 degrees Celsius and -4 degrees Celsius , the surplus water vapor invariably condenses into SUPERCOOLED WATER(water having a temperature below the melting point of ice, but nonetheless existing in a liquid state). Ice does not form within this range of temperatures.
"Cold" could mean anything. To me, cold might be 10 degrees Celsius, while someone else sees "cold" as 1 degree Celsius. In science, nothing is ever described as cold, because a questions that always arise are "how cold? 20 degrees Celsius? 0 degrees Celsius? -100 degrees Celsius?"
That depends a lot on the pressure - at higher altitudes (less pressure), the boiling point is lower. At standard pressure (1 atm.), the answer is 100 degree Celsius.
32 degrees Fahrenheit, or 0 degrees Celsius, is the melting point of water at 1 atm.
A temperature of 0 degrees Celsius and a pressure of 1 atmosphere is considered standard temperature and pressure or STP.
Pure water freezes at 0 degrees Celsius when at sea level (1 atm, or 760 torr). It boils at 100 degrees Celsius under the same conditions.The freezing temperature of water is 0 degrees Celcius.
STP is the same for all gasses an gaseous mixtures: 0 degrees Celsius at a prssure of 1 atm.
1 atm=760 mm Hg= 760 torr =101.325 kPa and 0 degrees Celsius
Any gas at STP is 0 degrees Celsius and 1 ATM when at 22.414L.
1 ATM of pressure and 0 c is known as 'Standard temperature and pressure' (STP)
That depends on the substance.
1 mL
The boiling point of water at 1 atm is exactly 99.97 degrees Celsius, which is almost always rounded to 100 degrees Celsius. It is 212 degrees Fahrenheit.
The density of nitrogen at 100 psi will depend on the temperature and can be calculated using the ideal gas law equation, PV = nRT. Without the temperature, it is not possible to provide an accurate value for the density of nitrogen at 100 psi.
The pressure of gas has nothing to with ATP. However, the pressure of gas at STP, or Standard Temperature Pressure is 0 degrees Celsius and pressure is 1 ATM.