Convection

Turbulence can be expected on warm summer days when the sun heats the earth’s surface unevenly. Certain surfaces, such as barren ground, rocky and sandy areas, are heated more rapidly than grass covered fields and much more rapidly than water. Isolated convective currents are therefore set in motion with warm air rising and cooler air descending, which are responsible for bumpy conditions as an airplane flies through the updrafts and downdrafts.

Turbulence extends from the base to the top of the convection layer, with smooth conditions found above. If cumulus, towering cumulus or cumulonimbus clouds are present, the turbulent layer extends from the surface to cloud tops. Turbulence intensity increases as convective updraft intensity increases.

Convective currents are often strong enough to produce air mass thunderstorms with which severe turbulence is associated. Turbulence can also be expected in the lower levels of a cold air mass that is moving over a warm surface. Heating from below creates unstable conditions, gusty winds and bumpy flying conditions.

Thermal turbulence will have a pronounced effect on the flight path of an airplane approaching a landing area. The airplane is subject to convective currents of varying intensity set in motion over the ground along the approach path. These thermals may displace the airplane from its normal glide path with the result that it will either overshoot or undershoot the runway.

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