Plot the actual lapse rate (Γa) (i.e., altitude vs. T) as well as the dry adiabatic lapse rate (Γd) to facilitate a comparison of these conditions for each case.

ОА The two lapse rates are used under different stability conditions: stable versus unstable, resulting in different values O B Friction is only important when the air is moist and therefore causes the most …

Jan 1, 2026 · Science Earth Sciences Earth Sciences questions and answers possible answers are in the parentheses 29. If this air rises as unsaturated (dry) air from 1000 mb, determine its temperature …

As air sinks on the leeward side of the mountain assume that its temperature increases at the dry adiabatic lapse rate and its dew.point temperature increases at 2°C per kilometer. Consider an air …

A tall stack and a nearby short stack have plumes as shown in Figure Q2. Which atmospheric temperature profile would be most likely to cause that pair of plumes? The dotted lines represent the …

The dotted lines represent the dry adiabatic lapse rate. Plumes Answer the question stated (choose the right picture - a, b, c, or d - for the plumes shown). For the other three temperature profile options, …

Which of the following statements is correct? Select one: a. The wet adiabatic lapse rate is variable b. The wet adiabatic lapse rate is constant c. The dry adiabatic lapse rate is variable d. The altitude of …

The Dry Adiabatic Lapse Rate is 10oC/1000m of elevation change. Every unsaturated parcel will cool at this rate as it rises. Let's imagine that an air parcel is rising up a mountain. The bottom of the …

A rising, unsaturated air parcel will cool at a dry adiabatic lapse rate of 10'C per 1000 meters. Assuming this lapse rate and an air parcel starting with a surface temperature of 22°C, what would be the …

Jan 1, 2026 · The dry adiabatic lapse rate is 9.8o C/km. From the table, upto the altitude of 1250m, the … View the full answer Previous question Next question