Homework #0 Humphrey Geology 4880 Fall 2012

This is due next Tues (Sept 4).

 Notes on all homework:

Try to couch your answers at the appropriate level of accuracy that is implied by the question. You are free to use data from any source or to make reasonable assumptions, but state what you assume, or show the data you use and give the source of the data.  Be aware that data and ideas from the Web are of highly variable quality, so if you use web sources you must include the URLs.  To do the homework you will have to take 4 steps:

·        figure out how to do the problem,

·        decide on the data you need (if any),

·        collect the necessary information,

·        and finally produce an answer, or more likely, a discussion of a possible answer.  Note for these questions I expect an answer based on your thinking.  If by chance you actually find an answer to a question from the Web, I will expect you to explain the answer.

Your work must be neat, legible, and organized. I am not willing to wade through a mess and I will just give it back to you to re-do.  You can work with others, but be aware that you will have to do similar questions on exams and quizzes, by yourself.

Often the homework will include one or more questions that are quite hard. Warning, usually the last one(s) are virtually impossible; however I expect an attempt, since I want to see how you approach a difficult question. (Homework #0 does not have an impossible last question, but all the questions should make you think).  Note that these questions are mostly just to get you thinking in the wide ranging style that is needed to solve a lot of geomorphic type questions. Actual answers only need to be (or for that matter can only be) approximate.  Since it is early in the course, these questions do not require deep geomorphic knowledge, but do introduce several concepts in geomorphology and environmental Geology.

Now the actual homework

1      

·        Part 1  How much does Medicine Bow peak weigh?  To make it more precise: what is the mass in kilograms of Medicine Bow peak, above the elevation of Lake Marie (the lake below Medicine Bow Peak), only include Medicine bow peak, not Browns Peak?   You will need a topo map.  TopoQuest on the web is a good place to look.  For other views Google Earth is a fantastic tool.

·        Part 2 Now include an educated comment on the likely size of the error in your estimate.  (Can you say your answer is likely to be less than a factor of 2 from the true value?) 

                     i.        Put a % value on the potential size of the error.

                    ii.        What are the 3 largest potential sources of error in your estimate, in order of importance.  (Note this is a straightforward question, but introduces the difficulty of answering real world problems.  Include your working so I can follow your method)

2 Afternoon thunderstorms are common at this time of year in Laramie.  How many raindrops hit 1 square meter of ground during a typical Laramie thunderstorm?  List the assumptions you had to make.  (This is an exercise in reasonable assumptions)

3 Close to ½ the surface of the earth has been transformed by human activity.  One of the spatially largest activities is deforestation.  Removing a forest tends to raise the albedo of the land and thus more sunlight is reflected from the earth, which in turn should cool the global climate.  So we could reverse our current global warming trend by cutting down trees?  Write a comment on this (physically sound) idea: is it correct (please don’t talk about the ethics of this)?   Part of the reason for asking this question is that you will probably find several well written but opposite viewpoints in the literature and especially on the web.  I want to illustrate that many simple questions do not have a single ‘correct’ answer.  Note that there really is a correct answer; if we did cut down all the trees, the temperature will either go up or down.  But can we really know the answer now, without cutting down trees?

4 Sand sized particles are common in the weathered surface material of our planet. Sand is common everywhere that physical (as opposed to chemical) weathering occurs, such as in rivers, beaches and deserts.  Laramie overlies a large indurated pile of sand, the Casper sandstone.  Why is sand so common?  (or why isn’t there a continuum or smooth distribution of sizes from big to tiny, instead of this preponderance of sand, and as it turns out another peak in abundance in the silt/clay sizes?)