AGRON 505 Spring 2015 Problem Set 4 Due Tuesday, February 10, 2015. Assigned February 3, 2015. Question 6 updated February 6, 2015. 1. Write a short story (at least one paragraph) that describes the “adventures” of a helium balloon named “Roland” after it is accidentally released by a small child at a county fair. Include in your story descriptions of the wind experienced by the balloon and the variations in its horizontal and vertical motions as it rises through the surface layer and into the free atmosphere. Be creative if you would like. 2. 5.1 in Campbell and Norman. 3. 5.2 in Campbell and Norman. 4. 5.3 in Campbell and Norman. 5. If you only had three anemometers and a single 10–m mast or tower, and you wanted to experimentally determine the friction velocity u∗ and also the roughness length zm of a bare soil surface, at what heights above the ground would you place/mount your anemometers to best estimate u∗ and zm ? Why? 6. Write and answer your own question based upon the information presented by Dr. Rajewski in class on Thursday, February 5. Example question: In what two ways can sensible heat flux be positive, taking energy out of a control volume surrounding Earth’s surface? Answer: According to page 25 of the presentation file, sensible heat flux H = ρcp w ′T ′ and H is positive when w ′T ′ > 0 which can occur either when w ′ > 0 and T ′ > 0 (warm air transported up, +ẑ, out of the box, from the surface to the atmosphere) or when w ′ < 0 and T ′ < 0 (cool air transported down, −ẑ, into the box, from the atmosphere to the surface) where w ′ is the fluctuation of vertical wind speed, T ′ is the fluctuation of air temperature, and ẑ is a unit vector normal to Earth’s surface pointing away from Earth’s surface. 7. Examine the journal paper “Observed Diurnal Cycle Climatology of Planetary Boundary Layer Height” at doi:10.1175/2010JCLI3552.1. Focus on Figure 12. 1 (a) Over which surface (land, ocean, or ice) does the PBL change the most over the course of a day, on average? Explain why this makes sense. (b) Over which surface (land, ocean, or ice) does the PBL change the least over the course of a day, on average? Explain why this makes sense. (c) What is the maximum and mininum diurnal heights of the PBL over land, and at what time (LST = local solar time) do they occur, on average? 8. Semester project prospectus. Describe the project in sufficient detail so that its viability and relevance to this course is evident. Include the following: (a) A description of the general topic area. (b) Potential quatitative models that you will investigate. Review what we have talked about in class, and take a look at what is covered in future chapters of the book. (c) Potential figures that will be included in the report. Plan for three to five figures. You are, of course, not bound to include exactly the figures you describe in this prospectus, but brainstorming now will be useful. (d) Data that will be required. (e) Some possible sources for this data. I can work with you to obtain the data, but your ideas of where to look will be helpful. 2