ACTIVITY 15.8 Adiabatic Processes and Cloud Formation Figure 15.10 shows air that begins with a temperature of 25°C and a relative humidity of 50 percent flowing from the ocean over a coastal mountain range. Assume that the dew-point temperature remains constant in dry air (relative humidity less than 100 percent). When the air parcel becomes saturated, the temperature and dew-point temperature become equal. As the air continues to ascend, the temperature and dew-point temperature will decrease at the wet adiabatic rate, but the dew-point temperature does not change as the air parcel descends. (Completing Figure 15.10 may be helpful.) 1. Use Table 15.2 to determine the saturation mixing ratio, water-vapor content, and dew-point temperature of the air at sea level in Figure 15.10. Saturation mixing ratio: 10 g of air 10 15 Water-vapor content: Dew-point temperature: 2. Is the air at sea level saturated or unsaturates? unsaturated Temp. Dew pt. D. 3000 m Temp. Temp. Dew pt. Dew pt. E. С. 2000 m Temp. Temp. Dew pt. F. Dew pt. 1000 m Temp. Dew pt. Temp. Dew pt. G. Temp. at Point A = 25°C Relative humidity at Point A = 50% Dry adiabatic rate = 10°C/1000 meters Wet adiabatic rate = 5°C/1000 meters A. Sea level A Figure 15.10 Adiabatic processes and cloud formation associated with air being lifted over a mountain barrier.
ACTIVITY 15.8 Adiabatic Processes and Cloud Formation Figure 15.10 shows air that begins with a temperature of 25°C and a relative humidity of 50 percent flowing from the ocean over a coastal mountain range. Assume that the dew-point temperature remains constant in dry air (relative humidity less than 100 percent). When the air parcel becomes saturated, the temperature and dew-point temperature become equal. As the air continues to ascend, the temperature and dew-point temperature will decrease at the wet adiabatic rate, but the dew-point temperature does not change as the air parcel descends. (Completing Figure 15.10 may be helpful.) 1. Use Table 15.2 to determine the saturation mixing ratio, water-vapor content, and dew-point temperature of the air at sea level in Figure 15.10. Saturation mixing ratio: 10 g of air 10 15 Water-vapor content: Dew-point temperature: 2. Is the air at sea level saturated or unsaturates? unsaturated Temp. Dew pt. D. 3000 m Temp. Temp. Dew pt. Dew pt. E. С. 2000 m Temp. Temp. Dew pt. F. Dew pt. 1000 m Temp. Dew pt. Temp. Dew pt. G. Temp. at Point A = 25°C Relative humidity at Point A = 50% Dry adiabatic rate = 10°C/1000 meters Wet adiabatic rate = 5°C/1000 meters A. Sea level A Figure 15.10 Adiabatic processes and cloud formation associated with air being lifted over a mountain barrier.
Oh no! Our experts couldn't answer your question.
Don't worry! We won't leave you hanging. Plus, we're giving you back one question for the inconvenience.
Submit your question and receive a step-by-step explanation from our experts in as fast as 30 minutes.
You have no more questions left.
Message from our expert:
Hi and thanks for your question! Unfortunately we cannot answer this particular question due to its complexity.
We've credited a question back to your account. Apologies for the inconvenience.
Your Question:
Find the temperature and dew point for all Points in Figure 15.10
Transcribed Image Text:ACTIVITY 15.8
Adiabatic Processes and Cloud Formation
Figure 15.10 shows air that begins with a temperature of 25°C and a relative humidity of 50 percent flowing from the
ocean over a coastal mountain range. Assume that the dew-point temperature remains constant in dry air (relative humidity
less than 100 percent). When the air parcel becomes saturated, the temperature and dew-point temperature become
equal. As the air continues to ascend, the temperature and dew-point temperature will decrease at the wet adiabatic rate,
but the dew-point temperature does not change as the air parcel descends. (Completing Figure 15.10 may be helpful.)
1. Use Table 15.2 to determine the saturation mixing ratio, water-vapor content, and dew-point temperature of the
air at sea level in Figure 15.10.
Saturation mixing ratio:
10
g of air
10
15
Water-vapor content:
Dew-point temperature:
2. Is the air at sea level saturated or unsaturates?
unsaturated
Temp.
Dew pt.
D.
3000 m
Temp.
Temp.
Dew pt.
Dew pt.
E.
С.
2000 m
Temp.
Temp.
Dew pt.
F. Dew pt.
1000 m
Temp.
Dew pt.
Temp.
Dew pt.
G.
Temp. at Point A = 25°C
Relative humidity at Point A = 50%
Dry adiabatic rate = 10°C/1000 meters
Wet adiabatic rate = 5°C/1000 meters
A.
Sea level
A Figure 15.10 Adiabatic processes and cloud formation associated with air being lifted over a
mountain barrier.
Recommended textbooks for you
Applications and Investigations in Earth Science …
Earth Science
ISBN:
9780134746241
Author:
Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:
PEARSON
Exercises for Weather & Climate (9th Edition)
Earth Science
ISBN:
9780134041360
Author:
Greg Carbone
Publisher:
PEARSON
Environmental Science
Earth Science
ISBN:
9781260153125
Author:
William P Cunningham Prof., Mary Ann Cunningham Professor
Publisher:
McGraw-Hill Education
Applications and Investigations in Earth Science …
Earth Science
ISBN:
9780134746241
Author:
Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:
PEARSON
Exercises for Weather & Climate (9th Edition)
Earth Science
ISBN:
9780134041360
Author:
Greg Carbone
Publisher:
PEARSON
Environmental Science
Earth Science
ISBN:
9781260153125
Author:
William P Cunningham Prof., Mary Ann Cunningham Professor
Publisher:
McGraw-Hill Education
Earth Science (15th Edition)
Earth Science
ISBN:
9780134543536
Author:
Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:
PEARSON
Environmental Science (MindTap Course List)
Earth Science
ISBN:
9781337569613
Author:
G. Tyler Miller, Scott Spoolman
Publisher:
Cengage Learning
Physical Geology
Earth Science
ISBN:
9781259916823
Author:
Plummer, Charles C., CARLSON, Diane H., Hammersley, Lisa
Publisher:
Mcgraw-hill Education,