Phys 3600: Study Guide for Final Exam
Date: Wed May 4 from 8:30-10:30 pm, in our original classroom (220 MSC).
Study tips:
- Be able to answer all questions from the Homeworks and Activities, focusing on concepts and techniques. Homework Answer Pages (for "see AP").
- Have read all textbook assignments.
- Copies of all the PowerPoint lectures are available on myBGSU/CourseDocuments.
- Don't memorize facts like dates, historical details, or specific numbers (e.g., the specific heat of water).
- Do focus on concepts (how things work, how do we gather information
about the physics of the environment), particularly the physics concepts (less emphasis on economic factors and statistics, which the book discusses at great length).
- I will give you all the formulas you will need along with numerical constants (e.g., the specific heat of water). You are
responsible for understanding what they mean and how to use them.
- Do bring a calculator (cell phones and other messaging devices are not acceptable), there will be computation
questions. I recommend combing through your notes to identify all the equations and making a study sheet listing them, what the letters symbolize, how the result changes when you change different variables. If we did calculations with the equation, include an example or two on your study sheet.
- You may want to browse the links on this page to reinforce some ideas and review pictures/movies that I showed in class.
- Feel free to visit my Office Hours (or make an appointment if they don't suit you) to answer any questions that arose while studying. I should be available most days Mon-Wed of exam week 9:30-5pm in my office (112 Overman) so stop by.
Coverage:
~70% on material since Exam #2:
- Chapters 10-14 + 16.
- Homework 11-15.
~30% on material from Exams #1 and #2 (focus on main ideas):
- Chapters 1-7.
- Homework 1-9.
Grading:
I will compute each person's final course grade two ways, and take the way that gives the higher score:
- HW=36%, GPs=21%, Exam1=12%, Exam2=12%, FinalExam=19% = the "new scheme" from the April 8 email.
- HW=34%, GPs=21%, Exam1=10%, Exam2=10%, FinalExam=35% = like the original scheme from the syllabus, with Exam3 and the Final merged.
Sample Problems (content from Exam #2):
I. 30-40 multiple choice questions -- example:
1) For an active solar house in BG (space heating), it would be best to place the solar panels
(A) horizontally, flat on the ground, (B) vertically, facing south, (C) vertically, facing east, (D) facing south but tilted about 25 degrees from vertical (nearly upright), (E) facing south but tilted 25 degrees from horizontal (nearly flat).
II. Fill in the blank -- examples:
1) A trombe wall is an example of a ____________________.
2) To heat 100 gallons of hot water in a domestic solar hot water heater, you need solar panels covering an area of ________ square feet, assuming an insolation of 1400 Btu/ft2/day and a collector efficiency of 50% [show your work in the space below].
III. Do 3 of the 4 short Essay questions -- examples (one writing, one calculation):
1) Imagine a figure skating couple standing face to face on the ice. She gives her partner a push. Explain what happens in terms of all three of Newton's Laws (imagine the ice is frictionless).
2) A person uses an electric winch to lift a 100 kg sack of turnips from the ground onto a truck 1.5 meters above the ground. (a) Has the winch done any work? Explain in words. (b) Use equations to calculate and demonstrate the amount of work done. (c) In words, explain how power relates to this problem. (d) Use equations to calculate and demonstrate the amount of power the winch uses to lift the sack in 3 seconds. (e) Compare this to the amount of power required to lift it in 10 sec.
~60% of credit will be in multiple choice and fill in the blank, while ~40% will be essay.
Andy Layden, updated Spring 2011