Answers to question #4
a.
Chemistry 220:Ý Introduction to Chemistry (Prelab for
CyclohexanoneÖ and Warm-up 8-28).Ý This
course is the first semester of the sophomore level Organic Chemistry sequence.Ý It serves chemistry majors, biology majors,
and health science students (pre-med, pre-vet, etc.)Ý Students are introduced to the fundamental aspects of bonding and
structure as it pertains to the molecules of carbon.Ý Included in this discussion are concepts of shape, polarity, and
stereochemistry.Ý These concepts are
used to predict the reactivity of the various functional groups and classes of
organic compounds.Ý Students are also
expected to learn the IUPAC system of nomenclature for all of the major classes
of organic compounds.ÝÝ General reaction
patterns of organic molecules are studied, including concepts of reaction
mechanism, free-energy changes, and chemical kinetics.Ý In lab, students gain experience with a
variety of techniques including extraction, distillation, crystallization, and
chromatography. ÝHands-on use of
instruments, including IR, HPLC, NMR and GC-MS is an integral part of the
course.Ý All of these techniques are
used in a variety of synthesis and isolation labs, many of which have a
discovery component to them.Ý It is
expected that students take an active role in asking and answering questions in
lab.
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Chemistry 320:Ý Intermediate Organic Chemistry (Prelab for
EAS Rates and Radical Warm-up)Ý This
course is the second semester of the sophomore level Organic Chemistry
sequence.Ý It serves chemistry majors,
biology majors (these students are not required to the second semster), and
health science students (pre-med, pre-vet, etc.).Ý In this course, students make use of their previous introduction
to the fundamental aspects of the bonding and structure of carbon molecules and
apply these to carbonyl compounds, aromatic compounds, carbohydrates and amino
acids.Ý Included in this discussion are
concepts of shape, polarity, and stereochemistry. .Ý Building on the introduction of these classes of compound, we
also cover the major classes of large biological compounds, including concepts
of protein folding and conformation.Ý
Finally, we cover two other classes of organic reactions, radical
reactions and pericyclic reactions.Ý The
lab is a continuation of Organic I with students expected to demonstrate a
stronger sense of independence.
Ý
b, c, d.
8-28 Warm-up:Ý This
assignment was due on the 2nd day of class.Ý During the first session, we
covered/reviewed ideas of bonding and Lewis structures.Ý Students were reading sections of the book
dealing with empirical formulas, molecular formulas etc.Ý During the previous class period we spent
time drawing Lewis structures for compounds containing no more than 4 carbons, and
applying rules of bonding to insure that the structures were realistic.Ý This warm-up exercise provided an assessment
of student mastery of the previous dayís work, and their comprehension of the
dayís reading assignment.Ý In questions
1 and 2, students were asked to use the material they ìlearnedî during the
first day of class.Ý For question 1, it
was a direct application of drawing Lewis Structures, but students had to
address a larger molecule than they did the previous day.Ý From experience, I know that drawing organic
molecules and getting the correct number of bonds to each atom is a struggle
for some students.Ý I also know that
students who struggle with this concept will struggle with the whole
course.Ý My aim for this question was to
start to get a feel for which students would need more help early on so that
they could have the best chance of mastering the material for the course.Ý I also asked students to describe the
structures in words getting them used to thinking in English to make sure they
truly understand the concept.Ý For question
2, students needed to use some reasoning skills to come up with an appropriate
answer.Ý We had covered the idea of
polarity (which relates to electron density) in the previous class, but this
question is looking at totally new material.Ý
My goal was to have students practice applying old information to new
material.Ý Much of organic chemistry is
looking for connections and using previous material to apply to new situations,
and I felt that the earlier I started this with students, the better off they would
be. The multiple choice question dealt with the dayís reading assignment.Ý It was a direct application, and was just
designed to see if students had a basic understanding of some of the material.
Prelab for
Cyclohexanone Reduction:Ý This was the third lab of the semester.Ý During the ìlectureî portion of the class,
students should have gained experience with drawing Lewis structures, shape,
etc.Ý We had also covered some basic
ideas of mass spectroscopy.Ý This
assignment in part assessed student preparedness for the laboratory assignment,
and hopefully helped to head off questions in lab, by asking students to think
about problems ahead of time.Ý Questions
2 and 3 also help students do a better job of writing up the lab later because
theyíve already had to think through some of the concepts.Ý Question 1, was separate from the other
questions, in that it asked students to draw a structure (of a compound used in
the lab) and analyze that structure in ways organic chemists typically do.Ý This gets back at the issues I talked about
for 8-28 warm-up ñ students need to know how to do this, or they
typically donít pass the course.
Radical WarmUp:Ý This
warm-up is from the middle of Organic II (Intermediate Organic Chemistry), and
after students had received a fairly thorough (two and a half days)
introduction to radical chemistry.Ý My
goal was to assess student mastery of this topic on the day we were scheduled
to go on to the next topic.Ý Questions 1
and 3 get at some of the fundamental principles involved in radical
reactions.Ý Question 2 asks students to
apply ideas from reactions they have covered in class and in the book to a new
reaction.Ý It also asks students to put
the information in their own words so that they donít hide behind symbols they
may or may not understand. Prior to doing this warm-up, students would have
completed one in-class worksheet on this material.Ý This work was done in groups, and the warm-up is supposed to be
done individually, although students can consult with each other before they go
to the computer to submit their answers.Ý
Rates of Electrophilic
Aromatic Substitution Prelab:Ý This is the third lab of the second semester
Organic Chemistry course.Ý The answers
for questions 1 and 2 are directly from their lab book., and question 3 asks
them to make some prediction of the outcome of the reaction based on what they
have learned in class.Ý Like all
prelabs, this one was designed in part to make sure they read the experiment
before coming to class, and that they had some idea of how to deal with the
problems they might encounter.Ý I used
question 1 in every prelab for the second semester, as I was trying to
encourage them to become more responsible for the safety issues.Ý Question 2 is something that almost always
comes up during this lab or the students end up leaving assuming their data is
good (afterall they took the readings), and they find when they go to plot the
data, it gives them poor results.Ý By
asking the question ahead of time, I hoped to make them think about the pitfall
before they started the experiment and to prevent some students from leaving
the lab with inadequate data.