Bellarmine University

Department of Chemistry and Physics

Course Syllabus

Spring 2011

Chem 214O Health Science Chemistry

Co-Requisites: Chem 214L

Dr. Joseph Sinski

Tuesday / Thursday 9:25 am – 10:40 am Miles 145

Office Location and Office Hours: Office Hours: Past 254a Mon/Wed/Fri 1:00-2:00 pm, Tues/Thur 12:00 -2:00 pm, or by appt.

Office Phone: 272-8219

Email Address:

Class Website: http://cas.bellarmine.edu/chemistry/Sinski/214.htm

Course Description

Chem. 214 Health Sciences Chemistry (4)

This course is targeted at students interested in careers in the health sciences industry. It is designed to show the centrality of chemistry between the physical and life sciences. Basic concepts in general, organic and biological chemistry are covered. Critical thinking and problem solving skills are emphasized throughout the course. Three hours lecture, three hours laboratory.

Learning Outcomes and Assessment Strategies

Learning Outcomes

Students will demonstrate that they have accomplished the learning outcomes:

1.  Unit Conversions for Health Care Setting Learning Outcome:

2.  Basic Understanding of Organic Molecules as They Apply to Biochemistry Learning Outcome:

3.  Basic Understanding of Biochemical Molecules and How They Work Learning Outcome:

4.  Use of Scientific Methodology to Report Scientific Results Learning Outcome:

5.  Laboratory Skills Learning Outcome:

Relevance to Learning Outcomes

1.  Unit Conversions for Health Care Setting Learning Outcome:

Being aware of the impact and relevance of science upon your lives is a Bellarmine University General Education Requirement. Thus understanding how to convert drug prescriptions to match patient needs has a significant impact on the everyday lives of the community.

2.  Basic Understanding of Organic Molecules as They Apply to Biochemistry Learning Outcome:

Being familiar with the natural world and recognizing both its diversity and its unity is a Bellarmine University General Education Requirement. To understand the nature of the biochemical world one must have a firm grasp on the diverse group of organic molecules that provide the backbone of these species.

3.  Basic Understanding of Biochemical Molecules and How They Work Learning Outcome:

Understanding the natural laws, basic concepts, and interactions of physical and living systems is a Bellarmine University General Education Requirement. Thus to understand the natural laws and basic concepts guiding the interactions of each part of the human body one must know the precise nature of the various classes of biochemical molecules.

4.  Use of Scientific Methodology to Report Scientific Results Learning Outcome:

Using scientific methodology for individual and social purposes is a Bellarmine University General Education Requirement. In Health Sciences Chemistry this translates to using careful scientific methodology to obtain your results that will ultimately be used to determine the status of your patients.

5.  Laboratory Skills Learning Outcome:

The Chemistry Department at Bellarmine University has a major objective of training and producing the most highly qualified graduates with laboratory skills that are second to none! Thus a major portion of the Chemistry Health Science Chemistry laboratory addresses training students who are both professional and proficient in the health care setting. You will also have ample opportunity to develop "good hands" (a term used for a person with strong laboratory skills) in this course. My role will be to coaching you to develop finesse in their lab activities.

How mastery of each learning outcome will be demonstrated:

1.  Unit Conversions for Health Care Setting Learning Outcome:

This is work that will be both covered in laboratory and in the lecture. Thus you can expect your lab reports and the in class exams to reflect this requirement and to challenge you on your mastery of unit conversion.

2.  Basic Understanding of Organic Molecules as They Apply to Biochemistry Learning Outcome:

Again, expect drills on organic molecules to be part of the in-class exam material.

3.  Basic Understanding of Biochemical Molecules and How They Work Learning Outcome:

This topic will be tested in an in class exam setting.

4.  Use of Scientific Methodology to Report Scientific Results Learning Outcome:

Your laboratory reports will be the mechanism to evaluate your mastery of scientific methodology.

5.  Laboratory Skills Learning Outcome:

Again your laboratory reports will be the mechanism to evaluate your mastery of your eventual laboratory skills, as well as how close you come to the true identity of the unknown analytes we use in the laboratory.

Course Methodology

Lectures will be supplemented with an ongoing PowerPoint presentation throughout the class. Text problems will be assigned and groups to work on them will be encouraged. A study guide will also be utilized this semester. A web site will be updated daily as well as new material is covered.

Required Text:

Foundations of General, Organic, and Biochemistry, Denniston 1st Edition,

A Laboratory for General Organic, and Biochemistry, Henrickson 7th Edition.

Tentative Schedule of Assignments, Activities, Quizzes, Tests, Papers, etc.

Exams: Exams will be given on the following dates during the regular class period. There are 4 in class regular exams worth 125 points each on the following dates: Exams will be returned within one week of the exam date.

Exam 1 Tuesday, February 1st

Exam 2 Tuesday, March 1st

Exam 3 Tuesday, April 5th

Exam 4 Tuesday, April 26th

Final Exam:

A comprehensive final examination will be given worth 250 points. The final exam is mandatory; you will be assigned a grade of F for the course if you do not take the final exam, regardless of your point total prior to the final exam. It will be held Tuesday 5/3/11 at 8:00 am – 11:30 pm in Miles 145.

Laboratory:

Along with the Chemistry 214 lecture, there is a Chemistry 214L laboratory that is also required. The lab grade represents ¼ of your grade in Chemistry 214 thus 250 points of the possible 1000 total. At the end of the semester, I will determine a raw percentage of a laboratory score which will be the percentage of the 250 points you will receive. (Thus a 90% in lab translates to 225 points given for your laboratory portion of this course.) If you do not participate in and pass the laboratory you will receive a grade of F for the course regardless of the class grade to that point. This course is a full package and laboratory is as important as lecture. Laboratory Reports will be returned within two weeks of the laboratory date.

Laboratory Schedule:

Basic Concepts, Measurement, and Properties

Jan 24, Jan 26 (1) Measurement and Density

Jan 31, Feb 2 (3) The Identification of an Unknown Liquid

Chemical Formulas, Equations, Mass Relationships, and Structure

Feb 7, Feb 9 (7) Hydrates and the Determination of the Formula of a Hydrate

Feb 14, Feb 16 (9) Analysis of a KClO3-KCl Mixture

Acid-Base Chemistry

Feb 21, Feb 23 (16) Acid-Base Titrations

Feb 28, Mar 2 (17) Acids, Bases, pH, Hydrolysis, and Buffers

Organic and Biochemistry

Mar 14, Mar 16 (20) Carboxylic Acids and Esters

Mar 21, Mar 23 (23) The Synthesis of Aspirin

Mar 28, Mar 30 (24) The Properties and Preparation of Soaps

Apr 4, Apr 6 (25) The Detection of Fats, Proteins, and Carbohydrates in Foods

Apr 11, Apr 13 (28) Analysis of Proteins and Amino Acids by Chromatography

Important Dates and Holidays:

Drop/Add Period Ends: Wednesday, January 12th

MLK: Monday, January 17th

Spring Break: March 7th – March 11th

Last Day to Withdraw: Tuesday, March 15th

Easter Break: April 20 after 5:30 pm – April 25 Until 5:30 pm

Last Day of Class: Tuesday, April 26th

Course Requirements and Grading Scale

I will have a very interactive course in which I expect you to contribute to the class discussion as we work though problems live with your peers. You must have your calculator at all times. Keep a record of your grades on the following page. Save all returned exams and quizzes until final grades have been issued. If a graded exam is not returned to you notify me promptly.

Grading Summary

Exams: Total

______(Total possible = 500) _____

1 2 3

_____

4

Final Exam (Total possible = 250) _____

Laboratory (Total possible = 250) _____

Grand Total ____

Maximum Points Possible:

Examinations = 500

Final Exam = 250

Laboratory = 250

______

TOTAL = 1000

Letter grades will be assigned as follows:

> 97.5 = A+

90.5 - 97.5 = A

89.5 - 90.5 = A-

87.5 – 89.5 = B+

80.5 - 87.5 = B

79.5 - 80.5 = B-

77.5 – 79.5 = C+

70.5 - 77.5 = C

69.5 - 70.5 = C-

67.5 – 69.5 = D+

60.5 - 67.5 = D

59.5 - 60.5 = D-

< 59.5 = F

Attendance Policy

The University requires students who will be absent from class while representing the University to inform their instructors in two steps. During the first week of the course, students must meet with each instructor to discuss the attendance policy and arrangements for absences related to University-sponsored events. Second, students must provide the instructor with a signed Student Absentee Notification Form, available via the student portal on the University intranet, at the earliest possible opportunity, but not later than the week prior to the anticipated absence. The Student Absentee Notification Form does not serve as an excused absence from class. Your instructor has the final say about excused and unexcused absences and it is the student’s responsibility to know and abide by the instructor’s policy.

Severe Weather

Refer to the current student handbook for details regarding changes in schedule due to bad weather. Faculty will arrange class schedules to meet learning outcomes in the event classes will be cancelled.

Academic Honesty
Bellarmine University is an academic community. It exists for the sake of the advancement of knowledge; the pursuit of truth; the intellectual, ethical, and social development of students; and the general well being of society. All members of our community have an obligation to themselves, to their peers and to the institution to uphold the integrity of Bellarmine University. In the area of academic honesty, this means that one’s work should be one’s own and that the instructor’s evaluation should be based on the student’s own efforts and understanding. When the standards of academic honesty are breached, mutual trust is undermined, the ideals of personal responsibility and autonomy are violated, teaching and learning are severely compromised, and other goals of the academic community cannot be realized.

I strongly endorse and will follow the academic honesty policy as published in the 2009-11 Course Catalog and in the 2009-10 Student Handbook. Both documents are available online via mybellarmine.edu. Students and faculty must be fully aware of what constitutes academic dishonesty; claims of ignorance cannot be used to justify or rationalize dishonest acts. Academic dishonesty can take a number of forms, including but not limited to cheating, plagiarism, fabrication, aiding and abetting, multiple submissions, obtaining unfair advantage, and unauthorized access to academic or administrative systems. Definitions of each of these forms of academic dishonesty are provided in the academic honesty section of the Student Handbook. All confirmed incidents of academic dishonesty will be reported to the Senior Vice President for Academic Affairs, and sanctions will be imposed as dictated by the policy.Penalties range from failing an assignment or course to dismissal from the University, depending, in part, on the student’s previous record of academic dishonesty. On the second offense during a student’s academic career, the student will be immediately suspended for the semester in which the most recent offense took place. On the third offense, the student will be dismissed from the University. It is generally assumed that graduate students fully understand what accounts for academic dishonesty. Thus, no leniency of penalty will be applied in cases involving graduate students.

Academic Resource Center (ARC)

Bellarmine University is committed to providing services and programs that assist all students in further developing their learning and study skills and in reaching their academic goals. Students needing or wanting additional and/or specialized assistance related to study techniques, writing, time management, tutoring, test-taking strategies, etc., should seek out the resources of the ARC, located on the A-level of the W.L. Lyons Brown Library. Call 272-8071 for more information.

Disability Services

Students with disabilities who require accommodations (academic adjustments and/or auxiliary aids or services) for this course must contact the Disability Services Coordinator. Please do not request accommodations directly from the professor. The Disability Services Coordinator is located in the Counseling Center (Bonaventure 00), phone 272-8480.

This syllabus is subject to change: