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How does the boiling point of a liquid at sea level compare to the boiling point of a liquid on top of a mountain?
A liquid boils when the molecules are going fast enough to create vapor pressure equal to the atmospheric pressure. The higher the temperature, the faster the molecules are moving. Temperature measures the average kinetic energy of the molecules. So when you heat water to make it boil, you are actually providing enough heat energy to be converted into kinetic energy, so the molecules are moving fast enough, to produce enough vapor pressure to push the air out of the way, so the water molecules can get out of the water and into the air. (What a run on sentence)
So when you go up on top of a mountain where the air pressure is less, so it is easier for the water molecules go fast enough to produce enough water vapor pressure to push the air molecules out of the way.
So the Boiling point for a liquid on top of a mountain is lower than for the same liquid at sea level.
I wonder if any teachers besides me tell students that the air molecules above a pan of water are colliding with the water molecules in the pan, so the water molecules can not produce ……
What else can I help you with?
When a liquid sample is taken from sea level to a higher elevation what happens to the external pressure on the liquid and the boiling point of the liquid?
atmospheric pressure is lower and the boiling point is less
What is water before boiling point called?
Water before boiling point is called liquid water. It is in a liquid state at temperatures below its boiling point of 100°C (212°F at sea level).
What state is boiling?
Water boils at a temperature of 212°F (100°C) at sea level. The state of boiling refers to the process in which a liquid turns into vapor due to an increase in temperature.
How does melting points and boiling compare to the characteristics of seal level of 0 celsius and 100 celsius?
At sea level, 1 atm, the melting point of water is 0 oC and the boiling point of water is 100 oC.
What is the relationship of boiling point with atmospheric pressure?
The boiling point of a substance decreases as the atmospheric pressure decreases. This is because lower atmospheric pressure reduces the pressure pushing down on the liquid, making it easier for the liquid to vaporize. Conversely, higher atmospheric pressure increases the boiling point of a substance as more pressure is needed to overcome the atmospheric pressure and cause the liquid to vaporize.
Is The boiling point of a liquid is lower at sea level than on a mountain?
No, the boiling point of a liquid is actually higher at sea level compared to on a mountain. This is because higher elevations have lower atmospheric pressure, which causes liquids to boil at lower temperatures to compensate for the decreased pressure.
When a liquid sample is taken from sea level to a higher elevation what happens to the external pressure on the liquid and the boiling point of the liquid?
atmospheric pressure is lower and the boiling point is less
What is water before boiling point called?
Water before boiling point is called liquid water. It is in a liquid state at temperatures below its boiling point of 100°C (212°F at sea level).
What state is boiling?
Water boils at a temperature of 212°F (100°C) at sea level. The state of boiling refers to the process in which a liquid turns into vapor due to an increase in temperature.
What are the difference of evaporation and boiling point?
Boiling point is the temperature at which the vapour pressure of liquid equals the pressure surrounding the liquid and the liquid changes into vapour whereas, normal boiling point can be defined as the case in which, vapour pressure of liquid equals defined atmospheric pressure at sea level, 1 atmosphere.
Boiling point of a liquid?
The boiling point of a liquid is the temperature at which its vapor pressure equals the pressure exerted on it by the surrounding environment, typically atmospheric pressure at sea level. At this temperature, bubbles of vapor form within the liquid and rise to the surface, causing it to boil and change state from a liquid to a gas.
How does melting points and boiling compare to the characteristics of seal level of 0 celsius and 100 celsius?
At sea level, 1 atm, the melting point of water is 0 oC and the boiling point of water is 100 oC.
Defined as the point as which liquids vapor pressure equals the atmospheric pressure?
The normal boiling point(also called the atmospheric boiling point or the atmospheric pressure boiling point)is the temperature at which the vapor pressure of a liquid equals the atmospheric pressure at sea level, 1 atmosphere.The normal boiling point of water is about 100 degrees Celsius at a pressure of 1 ATM (i.e., 101.325 kPa).General Useful Information:The boiling point of a liquid is the temperature at which the vapor pressure of the liquid equals the environmental pressure, but the environmental pressure may or may not be equal to the atmospheric pressure at sea level, 1 ATM.If the surrounding environmental pressure is less than atmospheric pressure, then the boiling point is less than the normal boiling point.If the surrounding environmental pressure is greater than atmospheric pressure, then the boiling point is greater than the normal boiling point.At the boiling point, adding enough heat to the liquid will cause the liquid to vaporize (that is boil or form a gas).
What is the relationship of boiling point with atmospheric pressure?
The boiling point of a substance decreases as the atmospheric pressure decreases. This is because lower atmospheric pressure reduces the pressure pushing down on the liquid, making it easier for the liquid to vaporize. Conversely, higher atmospheric pressure increases the boiling point of a substance as more pressure is needed to overcome the atmospheric pressure and cause the liquid to vaporize.
When does liquid water turn to gas?
At sea level, liquid water boils and becomes a gas at 212º F, or 100º C. Due to lower surrounding pressure it has a lower boiling point at higher altitudes (ex. boiling point is 202º F in Denver, CO, about 5,000ft. above sea level), and a higher boiling point at lower altitudes.
Why is the boiling point not the same in Henderson as it is at sea level?
The Boiling Point of a Liquid (a Fluid) is dependent on its Surface Pressure (air pressure). The Air Pressure (due to increased altitude) is LOWER in Henderson than at Sea Level.
What is a liquid that can dissolve sugar is not flammable and has a boiling point of 94 degrees C?
Water has a boiling point of 367 K ( = 94oC) at 81.4 kPa (80% of Standard Sea level Pressure)
