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Syllabus

Science Prerequisites for Health Professionals

PHYS 1010: Physics I (6-Week) Summer Session 2

Credits - 4

Description

This is a one-semester course, with a laboratory, designed for individuals with a baccalaureate degree who need first semester physics as a prerequisite to apply for admission to health professions’ programs. These may include graduate programs in medicine, veterinary medicine, dental medicine, nursing, physical therapy and physician assistant.

Materials

  • Textbook

    College Physics
    OpenStax College
    Rice University
    ISBN-13: 978-1-938168-00-0

    Available free online: https://openstaxcollege.org

    Optional text for deliberate practice:

    E. Hecht, Schaum’s Outlines College Physics, 12th edition, McGraw-Hill Education, ISBN-13: 978-1259587399, (2018).

    Mandatory UNE-approved webcam and whiteboard* – To be used during proctored exams

    Lab Material

    IOLab: The Pocket Physics Lab
    ISBN: 9781319149918
    Available to purchase through our bookstore at https://www.bkstr.com/uofnewenglandstore
    Available for rent at Macmillanlearning.com; ISBN: 9781319321185

    All of the online simulators used in the course are available for free from:
    PhET Interactive Simulations
    University of Colorado Boulder
    https://phet.colorado.edu

    Other household objects as specified in the weekly lab instructions, including:

    • 5 Large Washers (3/4″ or 1/2″ diameter)
    • String (contractor/masonry twine, packaging twine, 550 paracord, or similar small-diameter string or rope)
    • 5 round objects of differing diameters
    • 12″ ruler or sewing tape measure
    • 2 books 
    • A table or board to use as an inclined plane
    • Deck of playing cards or object of similar dimensions
    • Large glass for water (>16 oz.)

Learning Objectives and Outcomes

Program Outcomes

In lecture courses, students should be able to:

  1. Communicate scientific concepts and information clearly.
  2. Illustrate fundamental laws, theories, and principles of scientific disciplines.
  3. Apply knowledge and critical thinking skills to scientific problems.

In lab courses, students should be able to:

  1. Ask a question or define a problem that can be tested.
  2. Hypothesize possible result(s).
  3. Plan and/or conduct an investigation individually and/or collaboratively to produce data to serve as the basis for evidence.
  4. Analyze data using tools, technologies, and/or models (i.e. computational, mathematical, graphical, etc.) in order to make valid and reliable scientific claims or determine an optimal design solution.
  5. Communicate the results by constructing an explanation based on multiple pieces of valid and reliable evidence obtained from a variety of sources (including students’ own investigations, models, theories, simulations, peer review) and the assumption that theories and laws that describe the natural world operate today as they did in the past and will continue to do so in the future.
  6. Apply scientific ideas, principles, and/or evidence gained from various experiments, as well as other observations and/or research, to provide an explanation of phenomena and solve design problems, taking into account possible unanticipated effects.

Course Outcomes

The objectives of this course are designed to facilitate your construction of conceptual models to describe physical ideas that are the foundation of sciences that you may encounter in your professional studies.

By the end of the course, you will be able to:

  • Demonstrate an understanding of the fundamental principles of the scientific method, as well as fundamental laws, theories, and principles related to physics.
  • Apply knowledge and critical thinking skills to relevant physics problems.
  • Plan and conduct laboratory investigations to predict relationships between key variables in physics problems.  Analyze independently collected data using tools, technologies, and models to make valid and reliable scientific claims. 
  • Apply ideas, principles, and/or evidence gained from various experiments, as well as other observations, to provide a physical explanation of everyday phenomena and solve problems, taking into account possible unanticipated effects.
  • Communicate results of lab experiments and independent work through multiple representations.

Assignments

Lectures and Laboratories

Course Details

Physics I is divided up into modules that follow the first 12 chapters of the textbook. Each module contains a reading assignment, video lectures, homework assignment, and lecture quiz. Modules will also contain a laboratory assignment, lab report, and, for some, a discussion board.  

Deliberate Practice Problems

This course also provides many practice problems with solutions for you to use to enhance your ability to solve physics problems. These problems are from your supplementary text, Schaum’s Outline, and have full solutions. To get the most out of these practice problems, watch the “About Deliberate Practice” video tutorial in the Module 1 section of your course before attempting these problems.

Assigned Homework Problems and Lecture Quizzes

Successful comprehension of physics concepts requires practice, diligence, and motivation.  You should spend several hours per section on homework and independent of laboratory time. Assignments can be found through Brightspace. They consist of homework with solutions to check your work once the homework has been reviewed by your instructor, and lecture quizzes. Homework must be handwritten. Please upload pictures or scanned copies of your homework for grading.

Laboratory Assignments

A significant amount of time is dedicated to at-home hands-on laboratory experiments.  We will make use of the IOLab Wireless Lab System along with accompanying laboratory instructions to collect data, analyze data on your home computer, and share results and interpretation with the instructor and other students.  Labs will focus on discovering relationships between variables involved in our fundamental models of physics.  Laboratory instructions and experiment submission forms are provided for each lab and are organized by course module/topic.  

Your lab assignment sheets will ask for a photo of your setup. Always include a photo of the experimental setup, NOT just one of the iOLab device sitting on a table in front of your laptop, or of the materials used. Also include a picture showing some action, such as yourself measuring something, of the device sliding down a ramp, etc.

Discussion Board Posts

Discussion questions cover interesting current events or materials that contribute to a deeper understanding of key concepts and allow you to interact with your classmates and the instructor. There are a total of six required discussion questions throughout the quarter that will count towards your discussion grade for the unit. Each question will require you to conduct at-home lab work, read additional materials (a short journal or magazine article), visit a specific webpage, and/or view a short video. Then you will write a response following the guidelines in the assignment.

To earn full credit: you will need to post a response, respond to the original posts of at least two other students, and then contribute to an ongoing discussion. For special cases where one or two students are accelerating faster through the course, the instructor will participate in the discussion so that everyone has the opportunity to interact.


Discussion Question Guidelines

  1. Read the assignment carefully so that you are familiar with the materials that you need to cover and how to craft your post.
  2. Respect each other’s ideas, feelings, and experience. Some of the questions involve areas of disagreement. Expect your classmates to have different opinions.
  3. Use proper writing style. Correct spelling and sentence structure are expected just as if you were writing a regular paper. Use spell check and grammar check before you submit.
  4. Write your posting in a word document! That way you can save a copy and use spell check and grammar check.
  5. Cite the sources that you use to write your response. Follow the AMA guidelines.
  6. Avoid posting large blocks of text. Break your writing into paragraphs and use a space between paragraphs to make your posting easier to read online.
  7. Subscribe to the discussion so that you get email updates when there is activity.
  8. Use the “reply” button rather than the “compose” button when responding to someone else’s post.
  9. When responding to a classmate, address them by name.
  10. Do not use postings such as “I agree,” “I don’t know either,” or “ditto.” They do not add to the discussion, take up space on the Discussions, and will not be counted.
  11. Everyone benefits from an active discussion. Check back in frequently to see what others are saying.
  12. Plan your time carefully. You will need to give your classmates time to respond to your postings. This is an asynchronous class where students will be in different points of the class.

Examination and Grading Information

Final Exam

For your final exam, you must review the Proctored Examinations information and requirements in the Policies section of this syllabus.

There will be a 3.5 hour proctored cumulative final exam. Exams begin and end promptly with scheduled times.  Be prepared to stay in the exam room for the entire time.  The exams are administered online via web proctoring – you will be required to follow all the proctor’s requests. These exams are closed for review. You will not be able to review these exams at any time. Please contact your instructor for specific feedback.

You may use:

  1. A scientific calculator (NOT a graphing calculator)
  2. A UNE-authorized white board. You must show your proctor that your whiteboard is clear at the beginning of your testing session, and you must erase your whiteboard in front of the proctor before disconnecting from your session. If you do not do this, your exam will not be credited.
  3. The provided Equation Sheet (available in Brightspace) by opening it in front of your proctor just before you start your exam. It must be a digital copy; no printed copies are allowed.

Grading Policy

Your grade in this course will be determined by the following criteria:

Grade Breakdown

Discussions10%
Homework15%
Lab Assignments25%
Quizzes25%
Final Exam25%
Total100%

Grade Scale

Grade Points Grade Point Average (GPA)
A 94 – 100% 4.00
A- 90 – 93% 3.75
B+ 87 – 89% 3.50
B 84 – 86% 3.00
B- 80 – 83% 2.75
C+ 77 – 79% 2.50
C 74 – 76% 2.00
C- 70 – 73% 1.75
D 64 – 69% 1.00
F 00 – 63% 0.00

Schedule

The lecture quizzes are graded immediately. After submission, the homework will be reviewed by your instructor and upon being reviewed, will allow you access to the solution manual for that module to check your work. The final lecture exam should not be taken until all the other assignments are completed.  Exams taken online with ProctorU will be graded immediately. While you will see your proctored exam scores, you will not have access to your exams once you have submitted it for a grade. You may contact your instructor regarding specific feedback, however no exams will be released to the students.

Course Schedule

Week 1: July 6 – July 12
Week 2: July 13 – July 19
Week 3: July 20 – July 26
Week 4: July 27 – Aug 2
Week 5: Aug 3 – Aug 9
Week 6: Aug 10 – Aug 16

Week  Modules Due Dates
1 Modules 1-3: Introduction, Scientific Method, Modelling, The Constant Velocity Free Particle, The Constant Accelleration Free Particle

Assignments Due Tuesday by 11:59 PM EST
2 Modules 4-6: Tools: Vectors and Trigonometry, Free-Particle Interactions: Weight and Friction, The Constant Force Particle I

Assignments Due Tuesday by 11:59 PM 
3 Modules 7, 9 and 10: The Constant Force Particle II, The Restoring Force Particle and Energy, Work, Energy, and Energy Resources

Assignments Due Tuesday by 11:59 PM
4 Modules 11-13: The Impulsive Force Particle: Linear Momentum and Collisions, The Center Seeking Particle: Uniform Circular Motion and Gravitation, Torque and Rotational Motion

Assignments Tuesday by 11:59 PM EST
5 Module 14-15: Fluid Statics, Fluid Dynamics and Its Biological and Medical Applications Assignments Due Tuesday by 11:59 PM 
6 Final Exam

Assignments Due Tuesday by 11:59 PM 

Student Resources

Online Student Support

Your Student Support Specialist is a resource for you. Please don't hesitate to contact them for assistance, including, but not limited to course planning, current problems or issues in a course, technology concerns, or personal emergencies.

Questions? Contact summersessiononline@une.edu

Instructor and Support Contact Information

Check Brightspace for specific instructor and support specialist contact information.

Further Assistance

Your student service advisor monitors course progression and provides assistance or guidance when needed. They can assist questions regarding ordering course materials, University policies, billing, navigating the course in Brightspace, and more.

Policies

Technology Requirements

Please review the technical requirements for UNE Online Programs: Technical Requirements

Course Length

A schedule of lectures and assignments is included in this syllabus.

Courses in the program are equivalent to one-semester courses designed to be completed in 6 or 8 weeks

  1. Enrollment in the course begins the day your section opens which is listed in the Academic Calendar found on the Student Success Portal.
  2. Course due dates, start and end dates are in respect to Eastern Time.

Withdrawal and Refund Policies

Please review the policies in your confirmation email. Contact summersessiononline@une.edu with any questions.

Grade Policy

Students are expected to attempt and complete all graded assignments and exams by the end date of the course. Contact summersessiononline@une.edu with any questions. 

Transcripts

Due to the Family Educational Rights and Privacy Act, only the student may request official transcripts. This may be done online by going to the University of New England Registrar website and following the directions on the page.

To view your unofficial UNE student transcript:

  1. Log into uonline at http://uonline.une.edu
  2. Select Student Services
  3. Select Student Records
  4. Select Academic Transcript

To request your official UNE student transcript:

Please review your Unofficial Transcript prior to requesting an Official Transcript.

  1. Log into uonline at http://uonline.une.edu
  2. Select Student Services
  3. Select Student Records
  4. Select Request Printed/Official Transcript
  5. Follow the prompts

After you click Submit Request, your official transcript will be put into the queue to be printed in the Registrar's Office.

Academic Integrity

The University of New England values academic integrity in all aspects of the educational experience. Academic dishonesty in any form undermines this standard and devalues the original contributions of others. It is the responsibility of all members of the University community to actively uphold the integrity of the academy; failure to act, for any reason, is not acceptable.

Academic dishonesty includes, but is not limited to the following:

  1. Cheating, copying, or the offering or receiving of unauthorized assistance or information.
  2. Fabrication or falsification of data, results, or sources for papers or reports.
  3. Action which destroys or alters the work of another student.
  4. Multiple submission of the same paper or report for assignments in more than one course without permission of each instructor.
  5. Plagiarism, the appropriation of records, research, materials, ideas, or the language of other persons or writers and the submission of them as one's own.

Charges of academic dishonesty will be reviewed by the Program Director. Penalties for students found responsible for violations may depend upon the seriousness and circumstances of the violation, the degree of premeditation involved, and/or the student’s previous record of violations. Appeal of a decision may be made to the Dean whose decision will be final. Student appeals will take place through the grievance process outlined in the student handbook.