4.3: Saturation and Clouds

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Page ID: 41833

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Dew Point Temperature

In Figure 4.2.1, there is a third line that we haven’t discussed yet – the blue line represents Dew Point Temperature, which is the temperature that the air needs to be cooled to in order for the atmosphere to become saturated. The Dew Point temperature is directly related to the amount of moisture in the air – a high dew point means that the air is close to saturated, and thus air doesn’t need to cool much, whereas a low dew point means that the air is very unsaturated, and thus needs to be cooled substantially to become saturated.

Cloud in a Bottle

When air temperature is equal to dew point temperature, the atmosphere is saturated, and clouds begin to form. A fun (and easy) way to demonstrate this is by constructing a Cloud-in-a-Bottle. To do this, you need the following things:

A squeezable plastic bottle
A splash of water poured into the bottle
Some kind of smoke, or particulate matter (aerosols from an aerosol can are a good choice if you’re uncomfortable with creating smoke)
(Optional) A temperature strip that you can purchase at a fish supply store, or on Amazon.com.

Step 1: Put a small amount of water in the bottle, and close the lid. After a few minutes, the air in the bottle will become saturated. A good set-up can be found in Figure 4.3.1.
Step 2: Open the bottle and either spray in some aerosol, or light a match, blow it out, and squeeze the opened bottle to “suck in” the smoke
Step 3: Place the lid back on the bottle, squeeze the bottle for a minute, and then release!

Caution

The Fire produced by the matches can be dangerous if not handled properly and the smoke can cause respiratory problems to sensitive groups… make sure to have a fire extinguisher nearby and to perform this in a well-ventilated location.

The set-up of a cloud in a bottle exercise. Additional details in caption. — Figure \(\PageIndex{1}\): Cloud in a Bottle. (Public Domain; Alicia Mullens) Alternative description of image.

When you release the bottle, the air inside the bottle becomes:
1. Clear
2. Foggy
Now squeeze the bottle again… the air inside the bottle becomes:
1. Clear
2. Foggy

Squeezing the bottle causes the temperature inside the bottle to rise slightly, forcing all of the water droplets in the air to evaporate. Once you let go of the bottle, the temperature of the bottle decreases to the dew point (remember from Step 1, the air inside the bottle was saturated, squeezing the bottle made the air unsaturated while releasing the bottle caused the air to cool to saturation again). This brings us to an important definition concept: When air temperature is equal to the dew point temperature, the air is saturated, and clouds form. If the air near the surface is saturated, fog occurs, whereas if the air higher above the surface is saturated, clouds are present.

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