6. In the next few steps, you will be constructing a figure that represents the location of the atmosphere layers, the changes of atmospheric temperature and pressure as a function of altitude. Most of the data necessary to the construction of your figure is presented in Table 5. First, start by completing Table 5. Table 5. Atmospheric temperature and pressure as a function of altitude above sea level Elevation Temperature 1 15 8.5 -4.5 -11 Atmospheric pressure 1013.25 878.36 2 761.43 660.07 572.20 496.02 429.99 372.75 323.13 -17.5 -24 ITT -234567892237887 10 20 30 40 50 60 70 -30.5 -37 -43.5 -50 -56 -46.5 -22.1 -2.5 -27.7 -55.7 280.11 242.82 58.19 13.94 3.34 0.80 0.2 0.04 80 90 -76.5 -86 0.008 0.003 7. Now you can start building your figure using Excel or a similar software. The elevation graduation will be on the "X" axis. In this case the elevation is the independent variable and should go on the "x" axis, but placing it on the other axis will provide with a more "natural" visualisation of the data. The "y" axis at the bottom of the graph will show the temperature graduation. For the atmospheric pressure you will use a second "y" axis; when you are graphing variables of different units such as we are, you can use a secondary axis. Make sure each axis is properly labelled. Your graph will have 2 curves, one for temperature and one for pressure, and the person looking at your graph needs to know which curve goes with which axis. You can achieve that by inserting a legend. Finally, locate and label the following: troposphere, stratosphere, mesosphere, thermosphere and the altitude of Mt. Everest. You can do that by adding shapes to your graph. The last thing you'll have to do is create an appropriate title starting with Figure 1, and select the proper placement. Include the figure here:
6. In the next few steps, you will be constructing a figure that represents the location of the atmosphere layers, the changes of atmospheric temperature and pressure as a function of altitude. Most of the data necessary to the construction of your figure is presented in Table 5. First, start by completing Table 5. Table 5. Atmospheric temperature and pressure as a function of altitude above sea level Elevation Temperature 1 15 8.5 -4.5 -11 Atmospheric pressure 1013.25 878.36 2 761.43 660.07 572.20 496.02 429.99 372.75 323.13 -17.5 -24 ITT -234567892237887 10 20 30 40 50 60 70 -30.5 -37 -43.5 -50 -56 -46.5 -22.1 -2.5 -27.7 -55.7 280.11 242.82 58.19 13.94 3.34 0.80 0.2 0.04 80 90 -76.5 -86 0.008 0.003 7. Now you can start building your figure using Excel or a similar software. The elevation graduation will be on the "X" axis. In this case the elevation is the independent variable and should go on the "x" axis, but placing it on the other axis will provide with a more "natural" visualisation of the data. The "y" axis at the bottom of the graph will show the temperature graduation. For the atmospheric pressure you will use a second "y" axis; when you are graphing variables of different units such as we are, you can use a secondary axis. Make sure each axis is properly labelled. Your graph will have 2 curves, one for temperature and one for pressure, and the person looking at your graph needs to know which curve goes with which axis. You can achieve that by inserting a legend. Finally, locate and label the following: troposphere, stratosphere, mesosphere, thermosphere and the altitude of Mt. Everest. You can do that by adding shapes to your graph. The last thing you'll have to do is create an appropriate title starting with Figure 1, and select the proper placement. Include the figure here:
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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