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METEO 003 Assignment 2 due Sept. 12. Review of Assignment 1.

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Presentation on theme: "METEO 003 Assignment 2 due Sept. 12. Review of Assignment 1."— Presentation transcript:

1 METEO 003 Assignment 2 due Sept. 12

2 Review of Assignment 1

3 Assignment 2 due Sept. 12 Chapter 2 Problem 7a, b: use graph paper or Microsoft Excel Don’t forget to label title, axis, legend, etc. Interpret the graph you make in part a for part b

4 Assignment 2 due Sept. 12 Chapter 2 Problem 10a, b: Clouds radiate in all directions Downwelling Radiation – downward emission of infrared energy Carefully read axis/axis labels of graphs

5 Assignment 2 due Sept. 12 Chapter 2 Problem 11a, b: IR Satellite Image Upwelling Radiation Why is scale showing temperature for an Infrared Satellite Image? Stefan-Boltzmann equation (E = σT 4 )

6 Assignment 2 due Sept. 12 Visible Satellite ImageInfrared Satellite Image

7 Assignment 2 due Sept. 12 Chapter 2 Problem 13a, c, d: UV Index – measurement of the strength of ultraviolet (UV) radiation from the sun at a particular place and time Table on page 81 not 83 Reference: http://www.epa.gov/sunwise/doc/uvradiation.htmlhttp://www.epa.gov/sunwise/doc/uvradiation.html

8 Assignment 2 due Sept. 12 Chapter 3 Problem 1: Use State College latitude as 40.8N Reference pg. 86 Equinoxes: Autumnal and Vernal Solstices: Summer and Winter Determine the maximum altitude of the sun

9 EXAMPLE Need to know: Latitude of your location: 39N Latitude at which sun is directly overhead: 10N Difference = 39N – 10N = 29° *Note: be careful when latitudes are in different hemispheres Maximum altitude of the sun = 90° – D = 90° - 29° = 61°

10 Assignment 2 due Sept. 12 Chapter 3 Problem 4, 6, and 9a,b,c: Continental locations have larger seasonality than coastal regions Prevailing winds off the water result in less seasonality than off the land

11 EXAMPLE Average January High Temperature (F) Average July High Temperature (F) Seasonality (F) City 1609333 City 2587214 City 3399051 Answer Choices:Oakland, CAKansas City, MOSavannah, GA City 2 City 1 City 3

12 Assignment 2 due Sept. 12 Chapter 2 – 7a,b, 10a,b, 11a,b, 13a,c,d Chapter 3 – 1, 4, 6, 9a,b,c Useful Equations From pg. 57, the Stefan-Boltzmann equation E = σT 4 Maximum altitude of the sun = 90° – Difference

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