The boiling point of water will be greatest at that point on Earth that is the closest to sea level.
Boiling point of water depends on the atmospheric pressure. The boiling point of water varies depending on the weather. At low atmospheric temperatures due to weather or due to being up a mountain, the water will boil below its "normal" boiling point of 100 oC
The higher the elevation, the lower the boiling point due to reduced atmospheric pressure. That is, the higher up you go, the less atmosphere there is above you, so the weight of the atmosphere pressing down on you (and whatever you are boiling) is reduced. Less pressure means that liquids boil at lower temperatures - it's easier for the heated molecules (speeded up by heating, which is actually a transfer of energy) to break free of the liquid and escape as a gas.
The boiling point of water will be greatest at that point on Earth that is the closest to sea level.
Boiling point of water depends on the atmospheric pressure. The boiling point of water varies depending on the weather. At low atmospheric temperatures due to weather or due to being up a mountain, the water will boil below its "normal" boiling point of 100 oC
The boiling point of water is greater at sea level than at higher elevations, because the air pressure is higher at sea level. The higher the pressure of the surrounding atmosphere, the higher is the boiling point of any liquid, because higher pressure promotes the rate of condensation of the vapor form of the liquid. The boiling point is the temperature at which the rate of condensation exactly equals the rate of vaporization of the liquid.
The higher it gets, the higher the temperature increases. :D
when you increase the salt,the boiling point elevation increases consequently as this increases impurity raising the solvent hence raising boiling point elevation
The higher the elevation, the more heat it takes to boil the water. This is due to the thinner altitude.
Higher altitude decreases the boiling point of water. Boiling point is defined as the point at which the vapour pressure of the substance above the liquid is equal to the external atmospheric pressure. Since the external atmospheric pressure is lower at higher altitudes, a lower vapour pressure of water is required for water to boil and therefore a lower temperature is required to achieve the desired vapour pressure.
The melting point is between 3652 and 3697 degrees C. The boiling point is 4200 degrees C.
It is not possible; filtration as a separating method is based on the difference between boiling points.
Rose's metal is a fusible alloy and thus does not have a boiling point. Its melting point however is between 200 and 208 degrees Fahrenheit.
there is no boiling point
In general, the higher the altitude, the lower the pressure, and the lower the pressure the lower the boiling point.
The boiling point depends on altitude (pressure). The effect on the melting point is not significant.
Boiling point decrease at high altitude.
the boiling point would be lower because pressure decreases as altitude increases. the boiling point would be lower because pressure decreases as altitude increases.
it depends on the altitude
The boiling point of water at this altitude is 84,2 oC.
The boiling point is lower at high altitude.
The boiling point temperature is lower at low pressure (altitude).
high altitude
The altitude at which you are making measurements must be considered when examining the boiling point.
The boiling point of water decrease when the altitude increase and the atmospheric pressure decrease.
boiling point and volatility are inversely proportion