Evaporation works like this

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Presentation transcript:

Evaporation works like this Liquids have molecules moving around in them Temperature is the average kinetic energy (which depends on the speed) of these molecules. If they are moving fast enough, at just the right angle, some will escape the surface of the liquid Some are moving faster than others! Molecules are held in by intermolecular forces. and turn into a gas. These evaporated!

Why are they a “gas” Intermolecular forces determine whether something is a solid liquid or gas. In order to have intermolecular forces you need to have multiple particles. The ones that escaped aren’t next to any other particles. Since they have almost no intermoleluar forces they have to be a gas.

Where did they go? They are in the air around the liquid. They are called vapors, anything that naturally is a solid or liquid under standard conditions that is currently a gas at standard conditions. If enough of them get together they will condense and reform a liquid. As more of the molecules evaporate and fill the air around the liquid, the chance that some of them may condense increases. Provided the vapors can’t escape, the liquid will reach a state where the rate of condensation and evaporation equal each other.

Vapor Pressure Vapor Pressure of a substance is the pressure of the vapor required for the rate of evaporation and condensation to be the same. At this pressure the substance will reach a dynamic equilibrium.

Dynamic means changing, equilibrium means staying the same. At a molecular level, constantly molecules are evaporating and condensing. However, since these cancel out, there is not net change.

After a liquid evaporates The remaining liquid is cooler. This is because the molecules with the most kinetic energy (heat) escaped. Water has a “cooling” effect because it evaporates. Sweat cools your body by evaporation. Provided it is not humid out. Humidity is a measure of the amount of water vapor present in the air.

Muggy (humid) weather In humid weather, the water vapor in the air is closer to its vapor pressure. Less net water can evaporate, and cool you off. The rate of evaporation hasn’t changed, but more water vapor is condensing than normally.

Increasing Evaporation Intermolecular forces play a big part. Low molecular forces mean the substance will easily evaporate. These substances are volatile. Evaporation occurs at the surface of a liquid so increasing the surface area will increase the rate of evaporation.

Allow evaporated vapors to escape so it can’t reach vapor pressure. Heat the substance to increase to kinetic energy.

Why do fans/wind feel cool? The majority of the water vapor from your sweat is directly around you. A fan or wind pushes air from somewhere else over to you, and the air that was around you somewhere else.

The water vapor that evaporated can’t condense back on you. This only works if it isn’t extremely humid out. If it is extremely humid the air from somewhere else contains a lot of water vapor that will condense on you.

Vaporization or Boiling Evaporation occurs at the surface of a liquid. As you continually heat a liquid, the particles inside move faster. Eventually the particles move so quickly, that they break free of all intermolecular forces and form gas pockets inside of liquid.

These are always less dense than the liquid so the float to the surface and escape. This is vaporization or boiling.

Evaporation and Vaporization Evaporation occurs at the surface If I get the substance hot enough

Evaporation and Vaporization This is vaporization or boiling I can force gas bubbles to form in the middle of the liquid