geology / earth science

in" rel="nofollow">ine"> geology / earth science Usin" rel="nofollow">ing Map T-2 (Umnak, Alaska) in" rel="nofollow">in the back of the laboratory manual, calculate the gradient of Mount Vsevidof. In order to do this, first place a straight edge object (e.g. ruler or piece of paper) on the map connectin" rel="nofollow">ing Derby Poin" rel="nofollow">int to Kigul Island. Then usin" rel="nofollow">ing the 1:250,000 mile scale bar, located in" rel="nofollow">in the front of the laboratory manual, measure out 2 miles on a piece of paper. Next, startin" rel="nofollow">ing at the 1,000’ contour lin" rel="nofollow">ine near Derby Poin" rel="nofollow">int, measure out 2 miles (along the straight edge) usin" rel="nofollow">ing your scale markin" rel="nofollow">ings on the piece of paper. Identify the elevation value at the end of your measurement. Fin" rel="nofollow">inally, usin" rel="nofollow">ing the gradient equation in" rel="nofollow">in your laboratory manual (Page 216), identify the gradient for Mount Vsevidof. You must show your work, usin" rel="nofollow">ing the equation in" rel="nofollow">in the in" rel="nofollow">instructions, in" rel="nofollow">in order to receive full credit. Usin" rel="nofollow">ing Map T-9 (Park City, Kentucky) in" rel="nofollow">in the back of the laboratory manual, calculate the gradient of Bald Knob. In order to do this, first place a straight edge object (e.g. ruler or piece of paper) on the map connectin" rel="nofollow">ing Dome House Cave to the Golf Course. Then usin" rel="nofollow">ing the 1:24,000 mile scale bar, located in" rel="nofollow">in the front of the laboratory manual, measure out 1/5th of a mile (2 boxes to the left of 0) on a piece of paper. Next, startin" rel="nofollow">ing at the 800’ contour lin" rel="nofollow">ine near Dome House Cave, measure out 1/5th of a mile (along the straight edge) usin" rel="nofollow">ing your scale markin" rel="nofollow">ings on the piece of paper. Identify the elevation value at the end of your measurement. Fin" rel="nofollow">inally, usin" rel="nofollow">ing the gradient equation in" rel="nofollow">in your laboratory manual (Page 216), identify the gradient for Bald Knob. You must show your work, usin" rel="nofollow">ing the equation in" rel="nofollow">in the in" rel="nofollow">instructions, in" rel="nofollow">in order to receive full credit. Usin" rel="nofollow">ing Map T-13 (Mono Craters, California) in" rel="nofollow">in the back of the laboratory manual, calculate the gradient of Mount Lewis. In order to do this, first place a straight edge object (e.g. ruler or piece of paper) on the map connectin" rel="nofollow">ing Summit Lake to Parker Lake. Then usin" rel="nofollow">ing the 1:62,500 mile scale bar, located in" rel="nofollow">in the front of the laboratory manual, measure out 1 mile on a piece of paper. Next, startin" rel="nofollow">ing at the 10,800’ contour lin" rel="nofollow">ine near Summit Lake, measure out 1 mile (along the straight edge) usin" rel="nofollow">ing your scale markin" rel="nofollow">ings on the piece of paper. Identify the elevation value at the end of your measurement. Fin" rel="nofollow">inally, usin" rel="nofollow">ing the gradient equation in" rel="nofollow">in your laboratory manual (Page 216), identify the gradient for Mount Lewis. You must show your work, usin" rel="nofollow">ing the equation in" rel="nofollow">in the in" rel="nofollow">instructions, in" rel="nofollow">in order to receive full credit. Determin" rel="nofollow">ine the approximate amount of vertical displacement along the “Crumes Lakes Fault” located in" rel="nofollow">in Section 27 of the Captain" rel="nofollow">in Jacks Stronghold Quadrangle? Is the amount of vertical displacement along the "Crumes Lakes Fault" uniform from north to south throughout the quadrangle? Explain" rel="nofollow">in your answer. Determin" rel="nofollow">ine the approximate amount of vertical displacement along the “Gillem Bluff Fault” located in" rel="nofollow">in Section 19 of the Captain" rel="nofollow">in Jacks Stronghold Quadrangle? Is the amount of vertical displacement along the "Gillem Bluff Fault" uniform from north to south throughout the quadrangle? Explain" rel="nofollow">in your answer. Determin" rel="nofollow">ine the approximate amount of vertical displacement along the “Cedar Mountain" rel="nofollow">in Fault” located to the West of Cedar Mountain" rel="nofollow">in in" rel="nofollow">in Section 35 of the Bray Quadrangle? Is the amount of vertical displacement along the "Cedar Mountain" rel="nofollow">in Fault” uniform from north to south throughout the quadrangle? Explain" rel="nofollow">in your answer. Helpful lin" rel="nofollow">inks: http://earthquake.usgs.gov/learn/kml.php http://www.gearthblog.com/blog/archives/2012/10/google_earth_a_to_z_volcanoes.html ------------ Part Two Short Answer Please follow all requirements while completin" rel="nofollow">ing the assignment for this Lesson. Do not leave a question unanswered. Utilize Proper short-answer format: Respond to the question usin" rel="nofollow">ing two to three well-constructed paragraphs contain" rel="nofollow">inin" rel="nofollow">ing specific details and examples that support your understandin" rel="nofollow">ing of the concepts. Carefully read each part of the question to ensure that each component is answered with the appropriate depth and detail. Your answers should be free of spellin" rel="nofollow">ing and grammar errors. When usin" rel="nofollow">ing source material, you must properly document it usin" rel="nofollow">ing APA format (see Announcements for details on APA). This also in" rel="nofollow">includes your textbook and laboratory manual if you use it for in" rel="nofollow">information in" rel="nofollow">in your discussion. In order to help you understand proper methodology, please leverage the short answer example for the course usin" rel="nofollow">ing the followin" rel="nofollow">ing lin" rel="nofollow">ink: Short Answer Example Follow all additional in" rel="nofollow">instructions. Faultin" rel="nofollow">ing and volcanism help to shape the world around us. Describe each of these processes by focusin" rel="nofollow">ing on: Processes How do these two items differ? How does each shape the earth? Types What are the names of the different types of volcanoes? What are the different types of faults? Landform Creation What landforms can be created as a result of volcanism? What landforms can be created from the different faultin" rel="nofollow">ing types? After describin" rel="nofollow">ing these features of volcanism and faultin" rel="nofollow">ing, conduct additional research to locate one example (that is not in" rel="nofollow">included in" rel="nofollow">in our textbook) of each of the followin" rel="nofollow">ing: Caldera Normal Fault Reverse Fault When discussin" rel="nofollow">ing these items be sure to identify its general location, name, and what identifies each as that type of fault/volcano. Make sure to cite your resources for where you obtain" rel="nofollow">ined this in" rel="nofollow">information.