Syllabus

Science Prerequisites for Health Professionals

CHEM 1021: Organic Chemistry II – Summer 2021

Credits - 3

Description

Online Organic Chemistry II:  This course is designed to give the student, interested in the health professions, the depth of a second semester of organic chemistry exploring reactivity and synthesis. The goals of this course are to provide students with the logic and foundation to organic chemistry topics that will be needed in his/her professional studies. Students will be introduced to a wide range of organic chemistry reactions. Students will learn to predict reaction outcomes and build an understanding of how molecules are synthesized. These are topics that are needed for entrance exams in the health professions.

The course is designed to take lecture and lab concurrently for four credits. However, students have the option to take the lecture only (three credits) or lab only (one credit).  

Course Prerequisite:: One semester of college level organic chemistry with lab.

Materials

Readings

All assigned readings are available freely online. 

Resources

  1. Required: Subscription to Achieve ($42). Enrollment details are available in Brightspace.
  2. Strongly Recommended:  An organic chemistry model kit such as this kit on Amazon.

Hardware

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

 

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 Objectives

  1. Rationalize the outcomes for reactions that precede via enolate intermediates generated from carbonyl-containing compounds.
  2. Explore the reactivity of different chemical reagents with α,β-unsaturated ketones. 
  3. Predict the reactivity of alkyl halides (substitution and elimination). 
  4. Explain the applications of nucleophilic substitution and elimination reactions (oxidations, alpha alkylations).
  5. Describe the electrophilic addition reactions of alkenes and alkynes.
  6. Predict the properties and reactivity of conjugated, aromatic, anti-aromatic, or non-aromatic molecules.
  7. Explore the reactions of aromatic compounds and understand what governs regioselectivity depending on the substitution pattern of the aromatic compound. 
  8. Predict products for simple pericyclic reactions.
  9. Explain the mechanisms of radical reactions.
  10. Develop short syntheses of target molecules.

SELF PACED DESIGN

On the course start date, students will have access to orientation. This must be completed to be able to gain access to the first module in the course. Students must complete the first module to gain access to the next one. We recommend that students spend about 15 hours per week to complete a course in 16 weeks. When trying to complete the course in less than 16 weeks, we typically see students do this successfully within 12-14 weeks. Instructors will be timely in grading and feedback, but it will not be instant.

Assignments

Worksheets

Each week, you will explore the new topics through the readings, videos, and worksheets. The worksheets are a place for you to take notes, draw, and try to answer problems. The materials are designed to help you walk through key ideas for the week. You can read the texts or watch the videos or play a game while you are doing the worksheets. You might find it effective to move back and forth between these activities. In fact, some of the videos will work through examples in the worksheets! Research shows that active engagement can increase your understanding and retention of the materials. To that end, you are strongly encouraged to print each week’s guided worksheets out first to have them on-hand while reading or viewing the learning materials. As they are a form of practice and engagement, you will receive points for completion alone.  If you are not understanding a topic through these materials, please contact the instructor!

Sapling Homework 

Each week, you will complete one or two short homework assignments in the Sapling system.  These homework assignments will be a chance for you to assess your understanding of the key concepts covered during that week.

In these activities, you can view hints without being penalized. You are also able to attempt each question multiple times, but be aware that you will receive a small penalty (5%) for each attempt after your first.  Note that you can compare your attempts to chart your progress with a question and review your work. Finally, be sure to review the feedback that you receive to better understand the correct responses.  You will be able to see the correct answer after you have submitted your assignment.

Sapling Quizzes

You will complete four shorter quizzes in the Sapling platform. These quizzes will be approximately 10-15 questions and you will have approximately 25 minutes to complete them. Each quiz will be worth 25 points. They will usually cover 2-3 weeks of material and will ensure that you are retaining the material as we progress through the semester.

Discussion Boards

There will be four discussion boards this semester. There is an introductory board to foster a sense of community. There will be two discussion boards on topics of metacognition (how to study and learn). The last discussion board will involve a project on the impact that organic synthesis has had on society.

Activities

There are six activities in this course (and one optional extra credit activity!). These activities will ask you to apply the knowledge that you are learning. One assignment will involve you recording a description of a reaction mechanism. The “roadmaps” will ask you to help provide reagents for the synthesis of a target molecule. The synthesis projects are an opportunity to design your own roadmap to a target molecule. There is also one assignment in which you will summarize the content from the previous class into a table.  

Midterm Exams

You will complete two mid-term exams in the Sapling platform. These quizzes will be worth 50 points each. The exams will be approximately 25 questions and you will have about 40 minutes to complete them. They will usually cover 3-5 weeks of material and will ensure that you are retaining the material as we progress through the semester. 

Final Exam

This will be a cumulative exam.  It will be a timed and proctored exam. There will be approximately 50 questions.  You will have 90 minutes to complete the exam and you may use the official UNE whiteboard. This assignment is worth 100 points toward your final grade.

This exam must be taken through ProctorU. See UNE’s Online ProctorU Site for information about signing up and scheduling your exam. The official UNE webcam is required (see the Course Materials section, above, for more information).

For proctored finals, grades will be posted 48-72 hours after taking the exams. At that time, you can expect an unofficial transcript.

Grading Policy

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

Grade Breakdown

Assignment CategoryNumber of Assignments & PointsTotal Point Values
Sapling Homework13 x 10 pts, 4 x 5 pts150 points
Sapling Quizzes 4 x 20 pts80 points
Worksheets1 x 10, 12 x 5 pts70 points
Discussions Boards4 x 10 pts40 points
ActivitiesRoadmap 1 (10 pts) Roadmap 2 (20 pts) Summary (5 pts) Mechanism (20 pts) Synthesis 1 (20 pts) Synthesis 2 (10 pts)85 points
Midterm Exams2 x 50 pts100 points
Final Exam1 x 100 pts100 points
Total625 points

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

 

Week

Topic

Assignments

0

Prior Knowledge for Organic Chemistry II

How to Use Achieve HW

1

Introduction to Organic Chemistry II

 

Achieve HW
Worksheet
Discussion

2

More Review of Organic Chemistry I

Achieve HW
Worksheet

3

Introduction to Enolate Reactions

Achieve HW
Worksheet
Quiz

4

Conjugate Addition Reactions

Worksheet
Achieve Homework

5

Review and Apply

Roadmap Activity
Midterm #1

6

Nucleophilic Substitution and Elimination Reactions

Worksheet
Achieve Homework

7

Predicting the Predominant Pathway in Substitution and Elimination Reactions

Worksheet
Discussion
Summary Activity
Achieve Homework
Quiz

8

Reactions of Alcohols, Amines, and Ethers

Worksheet
Mechanism Activity

Achieve HW

Synthesis Proposal #1

9

Alpha Alkylations

Worksheet
Synthesis Activity
Achieve Homework

10

Review and Apply

Roadmap Activity
Midterm #2

11

Electrophilic Additions to Alkenes and Alkynes

Worksheet
Achieve HW

12

Concerted Electrophilic Additions

Worksheet
Achieve HW
Quiz

13

Conjugation, Aromaticity, and Pericyclic Reactions

Worksheet
Discussion
Achieve HW

14

Electrophilic Aromatic Substitutions

Worksheet
Synthesis Activity
Discussion
Quiz

15

Radicals and Radical Polymerizations

Worksheet
Achieve HW
Discussion Continued

16

Review and Apply (Final Exam)

Extra Credit Roadmap
Final Exam

Student Resources

Online Student Support

Your Student Support Specialist is a resource for you - they will monitor course progression and provide assistance or guidance when needed. Please don’t hesitate to contact them for assistance, including, but not limited to course planning, course materials, billing, current problems or issues in a course, technology concerns, or personal emergencies.

Questions? Submit your student support request.

Online Peer Support

Togetherall is a 24/7 communication and emotional support platform monitored by trained clinicians. It’s a safe place online to get things off your chest, have conversations, express yourself creatively, and learn how to manage your mental health. If sharing isn’t your thing, Togetherall has other tools and courses to help you look after yourself with plenty of resources to explore. Whether you’re struggling to cope, feeling low, or just need a place to talk, Togetherall can help you explore your feelings in a safe supportive environment. You can join Togetherall using your UNE email address.

Instructor and Support Contact Information

Check Brightspace for specific instructor and support specialist contact information.

Student Lounge

The Student Lounge Discussion Forum is a designated support forum in which students may engage with each other and grapple with course content. Feel free to post questions, seek clarification, and support each other, but be mindful of UNE's Academic Integrity Policy.

Your instructor will monitor this forum. However, if you are seeking specific and timely answers to questions about course content or your personal grades, please contact your instructor via course messages. For questions about course materials, program policy, and how to navigate and proceed through the course, please contact your Student Service Advisor through the Student Portal.

Policies

Proctored Examinations

Your course may have proctored exams. Please see your course for full details, access, testing requirements, and guidelines.

Students must follow all proctoring requirements for their exams to be credited. Please contact your instructor for specific feedback.

Exam Attempts Policy

Students will receive two attempts at all proctored examinations. The higher score of the two attempts will be calculated into the final grade.

All students are encouraged to use a second attempt on their exams in order to improve their overall performance in the course.

Course Discussions

Discussion topics cover events or materials related to this course that contribute to a deeper understanding of key concepts and allow you to interact with your classmates and the instructor. Each discussion topic may require you to conduct internet research, read additional materials, visit a specific webpage, AND/OR view a short video before writing a response following the specific guidelines in the discussion topic prompt.

To earn full credit you will need to post a response to the discussion topic, respond to the original posts of other students, and then contribute meaningfully to an ongoing discussion. You may need to post your initial response before you will see any posts from your classmates. 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.

Please see Brightspace for a full description, along with specific guidelines, for each discussion topic. Discussion board assignments should be completed, along with all other assignments in the course, in the order that they appear. Due to the course design, you may be unable to take a proctored exam if you do not complete all assignments that appear prior to that exam.

Please also refer to the Grading Policy/Grade Breakdown section of the syllabus to learn the percentage of your grade that each discussion is worth.

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. This is, however a self-paced course and you can complete the course in less time.

  1. Courses in the SPHP program are equivalent to one-semester courses designed to be completed in 16 weeks
  2. Enrollment in the course begins the day your section opens which is listed in the Academic Calendar found on the Student Success Portal.
  3. Course start and end dates are in respect to Eastern Time.

Withdrawal and Refund Policies

Please visit the enrollment page to review the withdrawal and refund policies.

Grade Policy

Students are expected to attempt and complete all graded assignments and proctored exams by the end date of the course. View the incomplete grade policy..

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.

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.

Using Generative AI When Completing Coursework

Generative AI (GenAI) applications (like ChatGPT) have proven to be powerful and effective tools, and students are encouraged to become familiar with and use them. However, as with any tool, students must use GenAI in ways that support learning, not replace it. Learning to use AI responsibly and ethically is an important skill in today’s society.

In their courses, students are not allowed to use advanced automated tools, such as generative AI tools, on assignments unless explicitly directed to do so. Each student is expected to complete each assignment, including labs and quizzes as applicable, without substantive assistance from others, including automated tools.

Using AI-content generators to complete assignments without proper attribution violates academic integrity. By submitting assignments in UNE courses, you pledge to affirm that they are your own work and you attribute use of any and all tools and sources.

Unauthorized Use

Unauthorized use of AI is treated as a violation of academic integrity.

Citing AI Use

If permitted, students should indicate and cite any use of AI tools. 

Instructor responsibility

Instructors should clearly reiterate, using UNE Online’s Policy, how students can use AI tools in their courses, and communicate this policy to students at the beginning of the semester. 

Student responsibility

Students must follow the academic integrity policy of the University of New England.