Contrail FAQ - Clouds Protocol

Answer: Contrails are human-induced clouds that usually form at very high altitudes (usually above 8 km - about 26,000 ft) where the air is extremely cold (less than -40ºC). Because of this, contrails form not when an airplane is taking off or landing, but while it is at cruise altitude. Exceptions occur in places where very cold air (near or below ~ minus 40 C/F) is sometimes found near the ground during the winter season. Thus, people who live under major air traffic routes, not people who live near major airports, are those who will see the most contrails. (However, some major airports are also under major air traffic routes, which can lead to confusion.) You can use an Appleman chart to predict contrail formation for your area. Of course, a contrail cannot form if no airplane passes through.

Answer: For a particular geographical location, it may seem that there are more of one type of contrail than another. Actually, the type and number seems to depend on the amount of moisture and temperature in the atmosphere where the plane is flying. If the area is fairly dry, then more short-lived contrails might be observed. If there is more moisture, such as along the east coast of the United States, there might be more persistent contrails observed. To look at observations from other areas, you might like to visit the GLOBE website and click on the Data Access button.

Answer: The swirling pattern in a contrail is caused by the vortices coming from the tip of the aircraft. A vortex is a swirling of air coming from underneath the tip of the plane and wrapping upward over the top of the wingtip. This is due to the difference in pressure caused by the curved shape of the wing. The process of having less pressure on the top of the wing and more pressure on the bottom of the wing provides "lift" for the aircraft.

Answer: In order for the contrail to form, there must be enough moisture in the high levels of the atmosphere for the ice crystals to form around the airplane exhaust. If the upper atmosphere is very dry, contrails will not easily form, or will be of the short-lived type.

Answer: Originally scientists believed that the contrails behaved like cirrus clouds to actually make the climate warmer. However, there have been studies conducted that have scientists rethinking their earlier ideas about contrails. This is one of the major questions that has to be researched at NASA and one of the reasons we are putting so much emphasis on contrails. When air traffic over the US was halted after the 9-11 incident, scientists got a rare look at the skies with only a few military jets flying. They were able to analyze the effects of some of these contrails and realized that their earlier notions about contrails' effects were not totally accurate.

Answer: Typically, rain clouds are low level clouds which are made up of water molecules. These water molecules then come together to form water drops (liquid) which eventually fall to the ground as rain drops. Since contrails are high level clouds, the moisture within them forms ice crystals which do not come together to form any form of precipitation (rain).

Answer: Almost all cloud droplets (and snowflakes) have a very small particle (aerosol) at their core. But the particle is MUCH smaller than the cloud/ice/snow particle. When light passes through the crystal, it is reflected or bent (refracted) by the cloud or ice particle, which makes it appear white to an observer. Therefore, what makes the contrail look white is the water (frozen into a crystal), rather than the exhaust particle. Note that sometimes the optical effects through these crystals can also produce colors, much like rainbows in water drops. You will only see these when the Sun-crystal-you geometry is aligned in certain ways.

Answer: For a contrail to form there must be enough moisture in the air and the temperature must be cold enough to form ice crystals at the altitude at which the jet is flying. If the temperature is too warm or the air too dry, contrails will not form.

Answer: For all or part of the contrail to disappear, there is a lack of moisture to maintain formation of the ice crystals. It may be possible for air currents to move drier air into the area of the contrail, which would cause that portion of the contrail to evaporate.

Answer: The type of contrail you are describing is a persistent contrail, and, in particular, one which is non-spreading. For a persistent contrail to spread, there must be enough extra moisture in the air for additional ice crystals to form. If there is a limited supply of moisture, a persistent contrail may form, but will not spread.

Answer: Contrails usually form in the upper portion of the troposphere and in the lower stratosphere where jet aircraft normally fly, generally between about 8 and 12 km altitude (~26,000 to 39,000 feet). They can also form closer to the ground when the air is very cold and has enough moisture.

Answer: If a contrail is persistent or persistent spreading, then the upper atmosphere contains large amounts of moisture. If a contrail is short-lived, then the upper atmosphere is relatively dry. This was used by sailors and can be used today to somewhat predict the weather. Short-lived contrails may indicate fair weather, and persistent contrails may indicate an approaching change in the weather or precipitation. The weather signal is somewhat analogous to that of natural cirrus clouds.

Answer: The two planes were flying at different altitudes - air traffic control has rules for spacing flights in different directions - so that the north-south flight path contained more moisture or was at a lower temperature than the east-west flight-path. The amount of moisture in the atmosphere can change considerably in a short vertical distance. It depends strongly on the origin of the particular air mass. There are also variations in the efficiency of aircraft engines, which can affect whether or not a particular plane will leave a contrail.