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*In column F you are given the temperature in the shaded grassy area. Based on the values in Table 1, where will it likely be warmer than it was in the shaded grassy area? Colder? Estimate the temperatures in those other areas and make sure that you record temperatures in °K.

*In column F you are given the temperature in the shaded grassy area. Based on the values in Table 1, where will it likely be warmer than it was in the shaded grassy area? Colder? Estimate the temperatures in those other areas and make sure that you record temperatures in °K.

Applications and Investigations in Earth Science (9th Edition)
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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*In column F you are given the temperature in the shaded grassy area. Based on the values in Table 1, where will it likely be warmer than it was in the shaded grassy area? Colder? Estimate the temperatures in those other areas and make sure that you record temperatures in °K.

Table 1. September 1, 2020 12:00 p.m. Your action; Surface Sun-exposed flat grassy area Forested northern slope Shaded grassy area B. Provided Incoming shortwave Outgoing Shortwave radiation SW↓ radiation SW↑ Sun-exposed asphalt 1022 parking lot Duck Pond A. Provided (W/m²) 1052 50 238 1027 (W/m²) 247 190 11 65 93 C. Calculate from A, B Albedo of surface D. Provided Mean temp troposphere (°K) 290.6 290.6 290.6 290.6 290.6 E. Calculate using D., S-B equation Incoming longwave radiation LW (W/m²) F. Provided Measured surface 89.6/30.4/ 305.0 temp (°F/°C/°K) Surface um 109.0/42.8/ 315.8 69.6/20.9/ 293.9 78.4/25.8/ 298.8 G. Calculate using F., Wien's Law 80.6/27.0/ 300.0 H. Calculate using F., S-B equation Outgoing longwave I. Calculate using Q* equation Dominant wavelength of radiation LW↑ Net Radiation (W/m²) (W/m²)
Transcribed Image Text:Table 1. September 1, 2020 12:00 p.m. Your action; Surface Sun-exposed flat grassy area Forested northern slope Shaded grassy area B. Provided Incoming shortwave Outgoing Shortwave radiation SW↓ radiation SW↑ Sun-exposed asphalt 1022 parking lot Duck Pond A. Provided (W/m²) 1052 50 238 1027 (W/m²) 247 190 11 65 93 C. Calculate from A, B Albedo of surface D. Provided Mean temp troposphere (°K) 290.6 290.6 290.6 290.6 290.6 E. Calculate using D., S-B equation Incoming longwave radiation LW (W/m²) F. Provided Measured surface 89.6/30.4/ 305.0 temp (°F/°C/°K) Surface um 109.0/42.8/ 315.8 69.6/20.9/ 293.9 78.4/25.8/ 298.8 G. Calculate using F., Wien's Law 80.6/27.0/ 300.0 H. Calculate using F., S-B equation Outgoing longwave I. Calculate using Q* equation Dominant wavelength of radiation LW↑ Net Radiation (W/m²) (W/m²)
Albedo values- for Column C. Surface Asphalt Deciduous Forest (winter; summer) Coniferous Forest Bare soil (dry; wet) Grass (short; long) Snow (fresh; old & dirty) Open water (high sun; low sun) Ice Table 2. February 26, 2019 Your action: Surface Sun-exposed flat grassy area Sun-exposed asphalt parking lot Forested northern slope Shaded grassy area Duck Pond A. Given Incoming shortwave radiation SW↓ (W/m²) 615 727 35 55 728 B. Calculate from A, C Outgoing Shortwave Radiation SW↑ (W/m²) Typical albedo 0.12 0.15 (0.20) 0.14 0.20 (0.25) 0.25 (0.16) 0.85 (0.55) 0.05 (0.30) 0.30 C. From table above Albedo of surface D. Given Mean temp troposphere (°K) 273 273 273 273 273 E. Calculate using D., S-B equation Incoming longwave radiation LW↓↓ (W/m²) G. Calculate using F., Wien's Law Dominant Surface temp wavelength of surface (μm) F. Predict* (°F/°C/°K) 33°F/0.4°C/ 273.4°K H. Calculate using F., S-B equation Outgoing longwave radiation LW↑ (W/m²) I. Calculate using Q* equation Calculated Net Radiation (W/m²)
Transcribed Image Text:Albedo values- for Column C. Surface Asphalt Deciduous Forest (winter; summer) Coniferous Forest Bare soil (dry; wet) Grass (short; long) Snow (fresh; old & dirty) Open water (high sun; low sun) Ice Table 2. February 26, 2019 Your action: Surface Sun-exposed flat grassy area Sun-exposed asphalt parking lot Forested northern slope Shaded grassy area Duck Pond A. Given Incoming shortwave radiation SW↓ (W/m²) 615 727 35 55 728 B. Calculate from A, C Outgoing Shortwave Radiation SW↑ (W/m²) Typical albedo 0.12 0.15 (0.20) 0.14 0.20 (0.25) 0.25 (0.16) 0.85 (0.55) 0.05 (0.30) 0.30 C. From table above Albedo of surface D. Given Mean temp troposphere (°K) 273 273 273 273 273 E. Calculate using D., S-B equation Incoming longwave radiation LW↓↓ (W/m²) G. Calculate using F., Wien's Law Dominant Surface temp wavelength of surface (μm) F. Predict* (°F/°C/°K) 33°F/0.4°C/ 273.4°K H. Calculate using F., S-B equation Outgoing longwave radiation LW↑ (W/m²) I. Calculate using Q* equation Calculated Net Radiation (W/m²)
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