| Science
Education (ESCI) 4430, Fall 2008 |
Dr. David F.
Jackson, Associate Professor |
|
| Science
Curriculum for the Middle Grades |
University of
Georgia
|
|
| Mondays,
Wednesdays, Fridays, 11:15-12:05 |
212 Aderhold
Hall, (706) 542-4637 |
|
215 Aderhold
Hall
corequisite:
EDMS 5020
pre- or corequisite: GEOL 4750/6750 or equivalent |
djackson@uga.edu
Ms. Amber Jarrard, Teaching Assistant
ajrod@uga.edu
|
|
Course
description,
from UGA Bulletin:
Examination
and
selection of science curriculum materials and assessments. Evaluating
and
reformulating materials for relevance to middle grades classrooms.
Special
attention to examples and problems drawn from the life, earth, and
environmental sciences.
Text
materials
will be
extensive and will consist not of a textbook but of photocopied
material drawn from
a wide
variety of sources, in accordance with accepted Educational Fair Use
guidelines. A large (at least 2 inch) three-ring binder for them is
highly
advisable. For those who are interested in further detail, a library of the entire books from
which these
readings are drawn will
be continously built and maintained in Room 215 during
the semester for reference and informal lending.
The specific
schedule will
be
determined, week-to-week and day-to-day, based on the progress and
input of the
class, the occasional availability of field experience opportunities or
guest
instructors, coordination with GEOL 4750 or EDMS 5020 activities, and,
in the case of several
outdoor lab
activities, the weather. Although the issues considered in this course
are
inherently interrelated, topics will be first introduced approximately
in the
order in which they are listed as objectives below, so this list can
also be
considered a crude topical outline for the course.
A web
site for the
course may be accessed at http://djackson.myweb.uga.edu//ESCI4430.html
and will be continuously
developed and revised during the semester. To allow for maximum
flexibility/responsiveness in teaching approach
and emphasis, daily updates listing
activities,
readings, and
assignments
will typically be posted within a few hours
immediately
following (only
partially and tentatively before) each class.
As stated by UGA policy, "the
course
syllabus is a
general plan for the course; deviations announced to the class by the
instructor may be necessary."
My
available office
hours are:
most of the
day on most Tuesdays and Thursdays; after class or after Geology class
most Wednesdays and Fridays.
Formal
assignments,
of which there will be approximately six during the course of the
semester,
will be reflective essays or practical design projects, designed to
require
creative and critical thinking about the issues being addressed.
In order to accomodate preferences in working styles and schedules,
students may choose to prepare and submit these either alone or as
groups of as many as three people. The most common assignments in the
past have included, but those this semester may not be limited to:
- Curriculum "triage:" What to keep and what to toss
- Constructing traditional assessment items
- Adapting and planning for use of videos
- Incorporating basic science process skills into
topical science lessons
- Reaction paper: Curriculum policy regarding environmental
education
- Reaction paper: Teaching about
biological evolution in light of possible perceived conflicts with
students' religious ideas
Note: "Reaction paper"
assignments are considered required, but (in order to encourage maximum
frankness and freedom of expression) may be submitted anonymously or
pseudonymously if desired.
Late
work policy:
A formal assignment will be penalized 10% for lateness if
submitted
after it has already been returned to those who submitted it on time.
Mastery Learning policy:
Any assignment may be redone as a whole (in a
significantly
different way or on a different specific topic) for a fully revised
grade, if
desired
| Grading Scale:
|
Elements of
Grade:
|
| A = 90-100%
|
90%
approximately 6 written and/or electronic-media-based assignments,
|
| B = 80-89%
|
10% final exam*
(time to be arranged during final exam period) |
| C = 70-79
|
|
| D = 60-69%
|
|
| F = <60%
|
|
*Required,
but with format and schedule highly flexible - see below.
General
grading rubric
for each assignment/project/exam question:
- 100%: beyond the call of duty;
strikingly impressive; excellent in every way
- 90%: both complete and showing
some
evidence of
original thought
- 80%: all aspects of assignment
minimally satisfied
- <80%: one or more aspects of
assignment missing or unacceptable
Final
exam items
will be a series of practical problems, designed to require creative
and
critical thinking in applying general principles learned in the course
to the
potential use of specific, previously unfamiliar curriculum materials.
The
final exam will require some reading and preparation based on materials
(text,
video, and/or software-based) distributed or demonstrated during the
last
week of
classes, and will be given on a time-limited but open-notes basis. The
option
of either a 30-minute oral interview or a traditional
3-hour written exam be
offered. The oral interview format is strongly suggested, has been
customary for nearly all students in this course for many years, and
may be scheduled at any mutually convenient time during the
exam
week (as with written exams, not
earlier).
Attendance
policy:
Attendance and class participation are not in themselves a formal
aspect of the
course grade. My goal is to try to design class activities so that you
feel
that you are clearly missing something important if you are not present
(both
physically and
mentally!). Polite but pointed inquiries will be made, however, about
the reasons for repeated or habitual absence or lateness.
In accordance with the
University Honor Code
and
Academic Honesty Policy,
academic work
must meet the standards contained in the UGA document A Culture of
Honesty.
Each
student is responsible to inform themselves about those standards
before
performing any academic work.
Music will be
played
regularly
during the 10-15 minutes immediately preceding class (in order to, as
Bugs
Bunny would say, soothe the savage beasts). Everybody should take turns
bringing in CDs, or else risk being subjected to my own wildly eclectic
tastes.
Course
Objectives
("Students will be able to..."):
Science
Curriculum and Assessment Issues
- Describe and
critically apply various
criteria for the design of the specific scope and sequence of the life
science and earth science components of a curriculum framework for
middle
grades science, with reference to both current state and local
objectives and
recent U. S. national science standards documents.
- Select and construct traditional assessment items
with the goal of achieving the best possible balance between
authenticity,
efficiency, validity, reliability, and fairness.
- Describe and apply selected
aspects of the history and
philosophy of science
that can inform science teaching and
curriculum.
Basic
Principles of Science Teaching
- Gather, prepare, and
critically evaluate several "hands-on,
minds-on" activities appropriate
for middle school students in each of several major life and earth
science topic areas
typically included in specifications of middle grades science
objectives.
- Describe the Learning Cycle
approach to science teaching and learning, and recognize,
modify, and
design middle-grades-level activities, including both single lessons
and long-term project-based units, using this approach.
- List,
describe, and demonstrate the Basic
Science Process Skills, and recognize, modify, and design
middle-grades-level
activities, including both single lessons and long-term project-based
units,
appropriate for developing them.
Electronic
Technologies in Science Teaching
- Describe
examples of the advantages and limitations, as
teaching tools for middle school science, of:
- video
and
electronic
display technologies
- computer-based simulations of natural
phenomena, scientific
problem solving, and science-technology-society
issues
- internet-accessed data and
communications, e. g., World Wide Web scientific information
resources and electronic-mail-mediated
science projects
Ethical,
Cultural and Social Issues in Science Teaching
- Describe
the problematic nature of several ethical,
cultural, and social issues that commonly arise in middle school life
science
and earth science teaching, and some relevant legal, sociological and
psychological principles that may help teachers, students and parents
to
resolve them:
- Use and treatment of animals
(living and dead) in the science classroom
- Policies regarding, and
teaching approaches to, environmental education
as
an aspect of science teaching and middle school curriculum
- Interactions between science
and religion, especially in regard to teaching the subject
matter areas of
astronomy, Earth history, and biological evolution
Final
note:
Science and middle school kids are two of the
most
exciting, fascinating, and (yes) challenging aspects of our world! We
can't
possibly have as much fun (or work as hard) this semester as you will
in the
future, but let's try to do both! :->