Name:________________________________ ATOC 1050-001 Homework #1 Due Tuesday February 8, 2010—BEGINNING OF CLASS! Instructions: Make sure that you answer all of the questions and complete all of the tables for maximum credit. Use appropriate units on all numerical answers and answer non-numerical questions with complete sentences. Please write neatly when completing this assignment – if we can’t read your answer you will not get credit for it. 1. Humidity Use the weather observations from the ATOC weather station on the roof of Duane Physics listed in this table to complete the table in problem 1a and to answer questions 1b through 1d. Date Time (MST) Temperature Dewpoint Temperature 13 Jan 2011 5AM 38˚F 23˚F 13 Jan 2011 10AM 49˚F 22˚F 13 Jan 2011 1PM 51˚F 21˚F 13 Jan 2011 4PM 50˚F 29˚F 13 Jan 2011 9PM 40˚F 28˚F 1a. Complete the table below using the weather observations listed above. The first row of the table has already been completed for you. Use the vapor pressure and saturation vapor pressure tables on the class web site (under the Homework link) to find the vapor pressure and saturation vapor pressure. Hint: Find the vapor pressure using the dew point temperature and the saturation vapor pressure using the temperature. Calculate the relative humidity using the following formula: Relative humidity = (vapor pressure) / (saturation vapor pressure) x 100% Date (UTC) Time (UTC) Vapor Pressure Saturation Vapor Pressure Relative Humidity 13 Jan 2011 1200 4.2 mb 7.8 mb 53.8 %Name:________________________________ 1b. How has the relative humidity changed from 5AM to 1PM MST? 1c. What caused the relative humidity to change in this way? 1d. Assume that the air inside of your house has the same dew point temperature as the air on the roof of Duane Physics at 1 PM MST and that the temperature in your house is 68˚F. What is the saturation vapor pressure inside of your house? ________________ What is the vapor pressure inside of your house? ________________________ What is the relative humidity inside of your house? _______________________ How does the relative humidity inside of your house compare to the relative humidity on the roof of Duane Physics at 1 PM MST? Why is the relative humidity inside of your house different from that on the roof of Duane Physics? 2. Surface Weather Maps Use the surface weather map at the end of this homework assignment to complete the tables in problems 2a and 2b and to answer questions 2c through 2g. 2a. Complete this table based on the circled station models on the surface weather map at the end of this assignment. Station Temperature Dew point Temperature Sea-level Pressure Wind Speed Wind Direction Portland, ME Phoenix, AZ Minneapolis, MNName:________________________________ 2b. Find the vapor pressure, saturation vapor pressure, and relative humidity using the weather observations listed in the table for problem 2a and the vapor pressure and saturation vapor pressure tables on the class web site. Station Vapor Pressure Saturation Vapor Pressure Relative Humidity Portland, ME Phoenix, AZ Minneapolis, MN 2c. At which weather station does the air contain the most water vapor? 2d. What variable(s) did you look at when answering question 2c? 2d. At which weather station does the air contain the least water vapor? 2e. What variable(s) did you look at when answering question 2d? 2f. At which weather station is the air closest to being saturated? 2g. What variable(s) did you look at when answering question 2f?Name:________________________________ 3. Rawinsonde Data and Soundings 3a. Use the blank sounding diagram at the end of this homework assignment to plot the following data from a rawinsonde launched from Barrow, AK on September 1, 2005 at 00 UTC. Pressure Temperature Dew point Temperature 1000 mb 0˚C -1˚C 900 mb -6˚C -6˚C 800 mb -8˚C -32˚C 700 mb -11˚C -25˚C 600 mb -18˚C -25˚C 500 mb -26˚C -34˚C 400 mb -38˚C -47˚C 300 mb -52˚C -59˚C 250 mb -55˚C -62˚C 200 mb -48˚C -76˚C 150 mb -48˚C -76˚C 100 mb -48˚C -76˚C For each pressure level draw a dot to represent the temperature and another dot to represent the dew point temperature. The temperature and dew point temperature at 1000 mb have already been plotted on the sounding diagram for you. Once you have plotted the temperature and dew point temperature at each pressure level listed in the table connect all of the temperature dots with a line and all of the dew point temperature dots with another line. 3b. At what pressure level is the tropopause located in this sounding? 3c. Why did you choose this pressure level to answer question 3b? 3d. At what pressure level would you expect a cloud to be present? 3e. Why did you choose this pressure level to answer question 3d?Name:________________________________ Use the sounding from Salt Lake City, UT, shown below, to complete the table in problem 3f and to answer questions 3g through 3h. 3f. Complete this table using the sounding shown above. Pressure Temperature Dewpoint Temperature 850 mb -10˚C -18˚C 700 mb 500 mb 300 mb 3g. At what pressure level is the tropopause located in this sounding? ___________ 3h. At what pressure level would you expect a cloud to be present? _____________Name:________________________________ Surface Weather Map for Problem 2Name:________________________________ Blank sounding diagram for problem 3a. Temperature