consider air parcel B, which is 14C at the surface. It is forced to rise to 5km. The lifting condensation level is 1.5km, above which the parcel cools at an average wet adiabatic lapse rate of 8C per kilometer. Fill in the left column of Table 6-2 indicating the parcel's changing temperature. please explain the answer, thank you. Temperature at 5.0 km = C Temperature at 4.5 km = C Temperature at 4.0 km = C Temperature at 3.5 km = C Temperature at 3.0 km = C Temperature at 2.5 km = C Temperature at 2.0 km = C Temperature at 1.5 km = C Temperature at 1.0 km = C Temperature at 0.5 km = C Temperature at 0 km (surface) = 14C
consider air parcel B, which is 14C at the surface. It is forced to rise to 5km. The lifting condensation level is 1.5km, above which the parcel cools at an average wet adiabatic lapse rate of 8C per kilometer. Fill in the left column of Table 6-2 indicating the parcel's changing temperature. please explain the answer, thank you. Temperature at 5.0 km = C Temperature at 4.5 km = C Temperature at 4.0 km = C Temperature at 3.5 km = C Temperature at 3.0 km = C Temperature at 2.5 km = C Temperature at 2.0 km = C Temperature at 1.5 km = C Temperature at 1.0 km = C Temperature at 0.5 km = C Temperature at 0 km (surface) = 14C
Applications and Investigations in Earth Science (9th Edition)
9th Edition
ISBN:9780134746241
Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Chapter1: The Study Of Minerals
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Problem 1LR
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consider air parcel B, which is 14C at the surface. It is forced to rise to 5km. The lifting condensation level is 1.5km, above which the parcel cools at an average wet adiabatic lapse rate of 8C per kilometer. Fill in the left column of Table 6-2 indicating the parcel's changing temperature.
please explain the answer, thank you.
Temperature at 5.0 km = C
Temperature at 4.5 km = C
Temperature at 4.0 km = C
Temperature at 3.5 km = C
Temperature at 3.0 km = C
Temperature at 2.5 km = C
Temperature at 2.0 km = C
Temperature at 1.5 km = C
Temperature at 1.0 km = C
Temperature at 0.5 km = C
Temperature at 0 km (surface) = 14C
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