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Final Exam Reviewmr Volkmar's Course Pages



Additional Teaching & Course Design Resources. Guide Contributors. Authors & Contributors. Final Exam Example. This final exam exemplifies a common structure of an in-class exam. It is broken into four sections and each section focuses on one aspect of the class. Part one emphasizes literary theory and genre issues, the second requires students. Jan 09, 2015 Your final exam questions will be based off the NINE areas in bold. If the success criteria accurately describes your abilities then you will most certainly be successful on this exam! You are permitted to bring your notebook, including your exam review notes, into the exam. Things Fall Apart Study Guide Final Exam. Take this practice test to check your existing knowledge of the course material. We'll review your answers and create a Test Prep Plan for you based on. Physics 220 - Final Exam - Summer 2014 Version 07 - Answer Key Page 1 of 20 1. A speaker with a power of 54 W is playing music. What is the sound intensity level of. Version 07 - Answer Key Physics 220 - Final Exam - Summer 2014 Page 8 of 20 8. A gure skater initially has her arms extended.

Course Syllabus & Expectations‎ > ‎

FINAL EXAM REVIEW

  1. What are all the major functions/processes controlled by hormones?
  2. What are tropic hormones?
  3. Describe the thyroid gland.
  4. Make sure you know the following hormones:
    • ADH
    • Calcitonin
    • Cortisone
    • Glucagon
    • FSH
    • ACTH
    • Epinephrine
    • Insulin
  1. Describe the components of human blood.
  2. Describe the different blood types.
  3. What is the process of blood clotting called? How long does this process usually take?
  4. What are megakaryocytes?
  5. Define stroke volume and cardiac output.
  6. List the layers of blood vessel walls.
  7. Describe the path that blood flows through the vessels of the systemic vascular system.
  8. List in order the sequence of events for the intrinsic conduction system of the heart.
  9. Where does blood from pulmonary circulation re-enter the heart?
  10. What does interferon do?
  11. Describe the 3 lines of defense our body uses to protect against pathogens.
  12. Give examples for types of acquired immunity.
  13. What are the 5 classes of antibodies?
  14. Which set of tonsils are commonly referred to as adenoids?
  15. What is the process of air moving in and out of the lungs called?
  16. How is carbon dioxide transported through the blood?
  17. List in order all the parts of the alimentary canal.
  18. What are the 3 parts of the pharynx called? 3 parts of the small intestines?
  19. What are the major functions of the urinary system?
  20. Where in the kidneys are most nephrons located?
  21. How much urine can the bladder hold when moderately full?
  22. Define the following terms:
    • seminiferous tubules
    • seminal vesicles
    • oocyte
    • endometrium
  23. Know the following diagrams:
    • endocrine glands pg. 303
    • heart pg. 351
    • lymphatic organs pg. 394
    • respiratory structures pg. 428
    • digestive organs pg. 455

Exam information for Dynamics, Spring 2012. This exam review table summarizes all the content for the semester in one place.

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Here is a sample final exam from Spring 2011.

Solutions to exams this semester:

Exam #SolutionAverageHistogramLast day to submit grade appeal
1solution76.5%histogramFriday March 16, 2012
2solution86.5%histogramFriday, April 20, 2012
finalsolution75.9%histogramThursday, May 17, 2012

Final Exam: Monday May 7, 2012, 2-5 pm in MEC 205

Content: Cumulative across the entire semester, with emphasis on all material covered in Chapters 17-19 (note that we didn’t cover eccentric impact in Ch. 19). There will be at least 4 problems for you to work out, plus there MIGHT be another “short” problem that is slightly more conceptual than the others. I’ll make sure to write the exam so that it is appropriate for the time available. You should be sure to understand each method for rigid body kinetics. There will be questions in which you are asked to solve a specific problem using a specific method. There will also be a question that asks you to solve a problem using whatever method you choose.

Download and preview your equation sheet for this exam.

Go to the Collab site to see homework solutions.

Final Exam Review Mr Volkmar's Course Pages Printable

Hop on over the PROJECT page to see lots more solutions.

The information below for Lectures 1-8 has been updated.

Chapter/TitleLecture PDFsLecture VideosProb Soln/VideosOnline Publisher Videos
00. Welcome (lecture page, with links)
  • 00. Welcome (lecture)
01. Particle Kinematics (lecture page, with links)
  • 01. Particle Kinetics (lecture)
  • 01. Particle Kinetics (problems)
  • Part 1 (15:24): basics
  • Part 2 (11:46): geometry of motion
  • Part 3 (8:48): projectile motion
  • Part 4 (16:25): n-t coordinates
  • Part 5 (7:21): r-theta coordinates
  • Part 6 (9:53): absolute and relative motion
  • 5 on basics
  • 5 on velocity
  • 1 on relative coordinates
02. Rigid Body Kinematics (lecture page, with links)
  • 02. Rigid Body Kinematics (lecture)
  • 02. Rigid Body Kinematics (problems)
  • part 1 (20:32): basics
  • part 2 (13:43): absolute motion
  • part 3 (10:19): instant centers
  • part 4 (5:16): translating coordinates
  • part 5 (16:26): rotating coordinates
  • a slider crank mechanism (showing instant centers)
  • 3 on basics
  • 3 on velocity
  • 2 on acceleration
03. Particle Kinetics (F=ma) (lecture page, with links)
  • 03. Particle Kinetics (lecture)
  • 03. Particle Kinetics (problems)
  • 03. Particle Kinetics (F=ma)
  • 3 on basics
  • 1 on particle systems
  • 2 on n-t and cylindrical coordinates
  • 1 on space mechanics
04. Particle Kinetics (Work-Energy) (lecture page, with links)
  • 04. Particle Kinetics (Work-Energy) (lecture)
  • 04. Particle Kinetics (Work-Energy) (problems)
  • Part 1 (work-energy principle)
  • Part 2 (conservative forces)
  • Part 3 (potential function)
  • Part 4 (conservation of energy)
  • Fund. Prob. 14-5 (ver. 1, ver. 2)
  • Prob. 14-21 (partial, focused on work of the spring, 2 methods)
  • 4 on work-energy
  • 1 on power
  • 1 on conservation of energy
05. Particle Kinetics (Impulse-Momentum) (lecture page, with links)
  • 05. Particle Kinetics (Impulse-Momentum) (lecture)
  • 05. Particle Kinetics (Impulse-Momentum) (problems)
  • Prob. 15-93, F=ma, work-energy, impulse-momentum
  • 2 on linear impulse-momentum
  • 1 on conservation of linear momentum
  • 1 on impact
  • 3 on angular impulse-momentum
  • 1 on fluid streams
06. Rigid Body Kinetics (F=ma) (lecture page, with links)
  • 06. Rigid Body Kinetics (F=ma) (lecture)
  • 06. Rigid Body Kinetics (F=ma) (problems)
  • 06. Rigid Body Kinetics (F=ma)
  • Part 1 (moment of inertia)
  • Part 2 (F = ma)
  • Prob. 17-117 (v.1, v.2)
  • 2 on moment of inertia
  • 4 on planar kinetics
07. Rigid Body Kinetics (Work-Energy) (lecture page, with links)
  • 07. Rigid Body Kinetics (Work-Energy) (lecture)
  • 07. Rigid Body Kinetics (Work-Energy) (problems)
  • 07. Rigid Body Kinetics (Work-Energy)
  • 4 on work-energy
  • 1 on conservation of energy
08. Rigid Body Kinetics (Impulse-Momentum) (lecture page, with links)
  • 08. Rigid Body Kinetics (Impulse-Momentum) (lecture)
  • 08. Rigid Body Kinetics (Impulse-Momentum) (problems)
  • 2 on impulse-momentum
  • 1 on conservation of momentum

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