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Developing a New Vision of Teaching and the Skills to Attain It
James J. Gallagher
Michigan State University
Framing a New Model of Professional Development
In 1986, my colleagues and I were approached by the staff development
team of a major teachers' union in Michigan. They asked if we would work
with them to apply the findings of Michigan State University's Institute
for Research on Teaching to problems of practice, especially regarding
teachers' professional development. More specifically, the union wanted
to collaborate with us on developing a model of professional development
for its members based on our then-novel ten years of research on teaching
and to pilot test it with one or more willing school districts. We worked
with the union leaders for over a year to formulate what we came to call
the Support Teacher Program. We then implemented the plan with one school
district for a period of twelve years. This experience was the source
of substantial professional learning and reward for my colleagues and
me. It also benefited the teachers in that district in many ways that
will be described in the following pages. Most importantly, it benefited
the students in terms of the practical matter of increased achievement
on state-mandated external assessments, as well as in many more lasting,
but less tangible ways.
Program Design
The program was designed to foster the professional development of a small
set of teachers within local districts who would act in a dual role as
part-time teachers and part-time staff development leaders. They, in turn,
would provide professional development for their peers. We decided to
call these people "Support Teachers" as an indication of their
role in supporting peers' improvement in teaching. For both the union
officials and us, it was important that the Support Teachers be released
from teaching duties for part of each day to carry out the responsibilities
of their new role of supporting their teaching colleagues in improving
their instructional techniques and effectiveness. It also was important
for Support Teachers to continue to teach on a daily basis to maintain
their credibility with their peers and to have ongoing "reality checks"
on the expectations they would have of their co-workers and advice that
they would give them.
It took considerable effort to find a district that was willing to commit
to this model of professional development because of the monetary cost-with
Support Teachers working with a reduced teaching load, replacements for
a portion of their classes would require added expenditures for professional
personnel.
After much recruiting, a medium-sized, mid-western city school district
joined us in this program, with both the local teachers' union and the
district's central administration giving their support to the program.
It was agreed that we would work with middle school science and mathematics
teachers, because of our collective beliefs that this would be both an
important and manageable place to try out this model.
Eight middle schools were operated by the district. Initially, the science
and mathematics teachers in four of the schools agreed to participate;
these schools ranged from central city to suburban and from 100 percent
African-American to 90 percent Caucasian in their student population.
A mathematics teacher and a science teacher in each of the four participating
schools were selected to fill the Support Teacher roles. It was agreed
that each would continue to teach three classes per day and be relieved
from three. This meant that in each building, a full-time replacement
would be hired to teach the three mathematics classes and the three science
classes no longer taught by the two Support Teachers.
Defining a New Professional Role
The role of the Support Teachers was proposed as having the following
three dimensions:
- To develop new knowledge about teaching, learning, and professional
development. In order for the Support Teachers to assume a leadership
role, it was essential for them to be knowledgeable about current theories,
practices, research and development in science and mathematics teaching.
Therefore, continuing professional learning was an important characteristic
of Support Teachers.
- To improve their own teaching. Even though the eight Support
Teachers were recognized as being among the best teachers in each of
their respective buildings, it was important that they work through
the process of changing their own teaching for at least two reasons.
First, if they were to expect their peers to improve their teaching
practice, then Support Teachers should also be willing to work to improve
their own practice -- the vernacular description being leaders "should
be able to walk the talk." The importance of this aspect of teacher
leadership should not be underestimated. Second, using the example of
psycho-therapists in training having to experience psycho-therapy, we
felt that it was essential for Support Teachers to work through the
process of changing their own practice so that could better understand
the difficulties entailed in doing so. In that way, they could better
understand the responses of their colleagues as they went through a
change process.
- To develop leadership and supervisory skills needed to support
peers in improving their teaching. We recognized that the culture
of teaching has many attributes of leaderless societies. As a result,
most teachers have not developed the skills and propensities to step
forward and assume a leadership position among their peers. To fulfill
the expectancies of this new position, Support Teachers would need to
assert a supportive leadership among their peers.
Each of these dimensions of the Support Teacher role required considerable
learning on the part of the new recruits for these positions.
We actually began our professional development of the Support Teachers
on a cold, snowy February day in 1988, with the plan that we would meet
with them for two full days of work and study about every three weeks
from then through May. We also agreed to have a week long retreat with
them on campus in August to prepare them to "hit the ground running"
when they initiated their formal positions as Support Teachers with the
opening of school in September. Thus, we had nearly seven months of preparation
time with more than 20 full working days (over 150 hours) together during
that time to prepare for the new role.
Follow-up work was planned as well. Beginning in September, it was agreed
that we would meet with the Support Teachers two days per month for the
first year of the program to continue their professional development and
to work through problems that would inevitably arise as they put this
plan into action. These monthly meetings continued for 12 years although
they reduced to one day per month after four years.
Characteristics of the Support Teachers
As indicated previously, all eight of the Support Teachers had been recognized
as among the best and most professionally dedicated teachers in the district
by their peers, administrators, and the union officials. All were experienced,
with at least 15 years of teaching, ranging up to 25 years. The gender
split was 50/50. One Support Teacher was African-American, the rest were
Caucasian. This racial balance approximated the racial balance of middle
school teachers in the district. As we got to know them, we found that
they were indeed dedicated and creative teachers. Also, it was evident
that they varied substantially in their content knowledge, with some having
rather limited knowledge beyond the level taught to their students, while
others were very well grounded in their subject matter content. Further,
all of the support teachers were of a similar mind that an important part
of their role, as teachers, was to present students with science content
information and to give quizzes and tests that checked to see that they
had learned it.
Most Support Teachers went somewhat beyond this "cultural transmission"
view of teaching to give some emphasis to helping students develop logical
reasoning about science and mathematics content. An example occurred early
in the program while observing Support Teachers at work with students.
There were five observers in Linda's classroom, one of the Support Teachers.
The observers included her three science Support Teacher colleagues, a
graduate assistant with the project, and me. We were there as part of
an agreed-upon procedure to observe each Support Teacher at work with
their own classes. As the lesson began, Linda introduced the textbook
definitions of mass as the quantity of matter and weight as the Earth's
gravitational attraction on an object. These definitions then were used
as a basis for discussion of the difference between mass and weight, with
Linda urging students to come up with their own words to describe the
two concepts and difference between them.
It was apparent that Linda was striving for students to understand these
difficult concepts. It was even more apparent that students, members of
a "tracked" class of high achievers, were struggling with this
task and were becoming frustrated with their lack of clarity about the
difference between mass and weight and their inability to express their
ideas effectively. However, she persisted in her efforts to make the students
reflect on the definition and come up with examples from their experiences
(real or vicarious) from which they could give meaning to the two concepts
and distinguish between them. Some students showed considerable anxiety
about not being "given the answer" and by Linda's persistence
in requiring them to make sense of this difference between mass and weight
in their own words. In response to this high level of anxiety, one student
took a $5 bill from his wallet and said to one of the Support Teachers
seated near him, "I will give you this if you tell me the answer!"
Other Support Teachers demonstrated similar efforts at teaching reasoning
and understanding about science and mathematics. However, most instruction
was whole-class and teacher-centered. There was very little opportunity
for students to engage in first-hand, experiential learning of mathematics
or science. The textbook was central in instruction.
In addition, there was little evidence that teachers had a belief that
all students could learn. In casual conversations and in classroom observations,
it was evident that ethnic and social class stereotyping was present.
Moreover, when behavior and attendance problems surfaced in a discussion,
it was not the "habit of mind" of the teacher to view these
as "problems needing a solution" and no effort was made by the
group to seek resolution. It recurrently appeared that these teachers
perceived themselves as victims of a social system and a school district
that they had little influence in shaping. This was a recurring and moderately
serious problem for the Support Teachers. Coming to know their peers over
time, it was evident that this was a nearly debilitating problem for some
and a ready excuse for inaction by others.
As we began to work with the Support Teachers, we probed the reasons
and goals for experienced, successful teachers wanting to work on this
project. All saw the changing demography of schools and the changing popular
culture as a source of concern. All indicated that they were seeking help
in dealing with changing values and attitudes of students. Their perception
was that students were not learning as well as they perceived they had
in the past. Nor did they see their students as being as interested in
learning mathematics and science as had been the case previously. All
said, "We want help in motivating our students."
The plea was, "Help us to make these students more responsive to
our efforts at teaching them." It was not until a few months into
the program that the Support Teachers recognized that it was not possible
to make students more responsive unless the teachers themselves first
changed their outlook and approach to teaching. It is also significant
to note that a few of the Support Teachers' peers never did grasp this
fundamental idea, even after twelve years of the project.
Professional Development Activities for Support Teachers
In response to Support Teachers' request to work on student motivation,
we suggested that we might be able to alter students' engagement in learning
if teaching were changed. Thus, at the outset of the program, we made
a decision to focus on improving teaching and the development of the Support
Teacher role. We also made the decision not to enter into curricular or
program reform. Our rationale for focusing on teaching, and not on curriculum
or program, was grounded in our personal experience and in research that
showed that program or curriculum change may lead to changes in instructional
content, but frequently does not bring about a change in pedagogy. A long
history of work has demonstrated that teachers typically put their energies
into learning the new content and materials that the new program brings,
while they continue to use familiar teaching approaches, even when the
program is designed around, and for, different ones.
To foster attainment of our goal to change teaching, we prepared a large
notebook of readings for the Support Teachers. It consisted of three parts:
(1) Readings on Science Teaching and Learning, (2) Readings on Mathematics
Teaching and Learning, and (3) Readings on Leadership, Supervision and
Support. The notebook was very thick and it came as a shock to the Support
Teachers who had not had a history of professional reading, especially
at the level and intensity that the notebook implied. The articles that
were selected for inclusion in the notebook all had a clear connection
to the daily work of Support Teachers. In addition, they were of a length
and writing style that would be usable by practicing teachers. Moreover,
the articles selected were chosen to advance the project leaders' agenda
for instructional improvement and teachers supporting their peers.
Our plan for initial professional development of Support Teachers was
to work with them in the district for two days about every three weeks,
from February though May as stated previously. One day of each visit would
be spent in a day-long seminar. During the other day, we would work with
teachers in one of the four schools in which they taught. Early school
visits were more to "get acquainted" with the physical and social
setting of the building, administrators, the Support Teachers' peers,
and the "culture" of the school and the departments in which
the Support Teachers worked.
During later visits, Support Teachers were observed and videotaped as
each taught a lesson to one of their classes. Observations were by subject
matter teams that included the other three Support Teachers, the MSU professor
for that subject, and a graduate student assisting on the project. Thus,
the experience was daunting for each of the Support Teachers as their
turn came to be observed and videotaped by this group.
The seminars were an important part of the professional learning for
the Support Teachers and for the MSU leaders. Our general approach was
to assign two or three articles from the notebook as readings for the
period between meetings, and then to spend a couple of hours in collective
discussion about these articles. Some articles were read by both mathematics
and science Support Teachers and the discussion group typically numbered
12. Most articles were read only by the mathematics or the science team
and discussed in smaller groups of six. Reading and analysis of research
articles and articles dealing with theory and philosophy of teaching and
learning were not part of the experience of these teachers. Thus we spent
some time helping teachers with the techniques of reading this literature
and in learning new concepts and terminology about educational practice.
We also were careful to help the Support Teachers to make connections
to their own teaching as we worked through articles. Both the difficulty
and importance of this approach are illustrated in Vignette 1.
Vignette 1: The Turning Point
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Reading, analyzing, understanding, and connecting these articles
to practice was not easy for the Support Teachers. New perspectives
and new habits of mind were required to engage the literature in
meaningful ways. These emerged slowly as the Winter faded into Spring.
For the science Support Teachers, one reading assignment marked
a significant turning point-Nussbaum and Novice's article on the
Particulate Nature of Matter (Driver et al., 1986). It was assigned
because all of the middle school science teachers were engaged in
some manner of teaching about atoms and molecules. Following a brief
description of work on students' misconceptions in science, teachers
read the article during the weeks between two of our meetings. They
returned to the next meeting with a high degree of interest about
the misconceptions uncovered by the researchers and described in
the article. However, all four of the Support Teachers were quite
confident that their students did not hold these misconceptions
because of the effectiveness of the instruction they had provided
for them.
Given this response, the next assignment for the Support Teachers
was to utilize the questions and tasks that Nussbaum and Novick
described in the article to determine the understandings of their
own students. Three weeks later, the Support Teachers returned to
the seminar "singing a different tune." They had learned
that their students had some serious misconceptions, even following
the instruction that they had delivered. This came as quite a shock
to them. Moreover, the Support Teachers also realized that they
held some misconceptions as well. Their own understanding about
the particulate nature of matter was not as "solid" as
they had thought.
This set of events was a turning point for the science Support
Teachers because they then began to grasp real connections between
the professional research literature and their own teaching. They
now could comprehend that "all those words" that researchers
had written held meaning for them as teachers. From that time onward,
reading the articles in the notebook, as well as in professional
journals that were in the Support Teachers' resource rooms in each
school, became an increasingly important part of their professional
life.
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The work in schools, especially the classroom observations and videotaping,
was also important in teachers' professional development. It also was
an important part of my own professional development as a university faculty
member involved in teacher education, staff development, and research.
(See Vignette 2.) It had a similar influence on the other members of the
university-based team. Several other articles also provided important
influences on Support Teachers' thinking, include articles by Showers,
1985; Glickman, 1985; Osborne and Cosgrove, 1983; and Arnauden and Mintzes,
1985.
Vignette 2: Matt's Story
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Another turning point for all of us in the project occurred on
the day that one of the most senior of the Support Teachers, Matt,
was videotaped teaching his grade 8 science class. He and his mathematics
colleague who taught at the same school were the second pair of
Support Teachers to be videotaped. This normally affable science
Support Teacher was quite stressed by the observation and videotaping.
Matt had serious anxiety during the taping of his class, that manifested
itself in very heavy perspiration and brow-mopping. The videotaping
coincided with the showing of a popular movie, Broadcast News,
in which a weekend replacement news-caster on a television station
had a similar anxiety attack resulting in a very humorous scenario.
In typical slapstick fashion, the movie scene was greatly over-done,
but it set a light-hearted note for our group. Because of the fine
interpersonal rapport that had developed among the Support Teachers,
the event was treated jovially and the "pain" Matt felt
was at least partially alleviated.
Later in the day, the analysis of the lesson on videotape by the
peers and our staff placed Matt in a somewhat defensive state. The
lesson was about the formation of igneous, sedimentary and metamorphic
rocks. A substantial amount of formal knowledge about these three
types of rocks and their formation was presented through lecture,
reading from the text, examination of pictures and diagrams in the
text, and direct examination of rock samples. Except for the "hands-on"
part of the lesson, it was highly teacher-centered, and students
had little time to process the large amount of information that
was presented. However, Matt was quite proud of his lesson. From
his perspective, it met important criteria: valid content, varied
approaches, good use of resources, hands-on activity, group discussion,
and follow-up assessment.
We watched the video and then began to discuss the class that we
had observed and re-watched on tape. As leader of the discussion,
I asked the group to identify the "good points" about
the lesson and student outcomes. After discussing the positive features
of the lesson, we began to explore what students learned from the
lesson and their intellectual engagement in it. Concern was expressed
that some students seemed only to be partially engaged in the tasks,
and that students were learning "pieces of information"
but not synthesizing them into coherent understanding of the different
types of rock that are formed by different means. The matter of
coherent understanding of phenomena had been an important part of
our work as we dealt with misconceptions and naïve conceptions
in science.
About 10 minutes into this latter part of the discussion, Matt
became concerned with what he perceived as criticism about the lesson.
Feeling renewed anxiety, he said to all of us, "Are you telling
me that all the work I have done over the last 23 years was wrong?"
I responded immediately, with an approach that has been helpful
to me ever since.
I said, "No, Matt, what you have done is not incorrect,
however it is incomplete. And it is not all your fault."
Matt: I am confused.
JG: Think about how you were taught science. In most science
classes, you were presented a highly factual body of knowledge.
Matt: You are right on that count.
JG: Your teachers and professors expected you to go home and
give those facts meaning, by studying in ways that permitted you
to make sense of them and find connections among them. You were
able to do this, but only a few of your students are able to do
so for a variety of reasons. As a teacher you are teaching in
the way you were taught.
Matt: How does this help me understand what was incomplete about
my lesson?
JG: Many of your young, teen-aged students are not able to do
make sense of factual information and make connections among facts
effectively. So what you have done that is 'right' is you helped
students gain access to the facts. Where your work was 'incomplete'
is in not providing support in helping them make sense of, and
make connections among, the facts. That is what most science teachers
need to remedy. Paying attention to the sense students make of
science experiences, terms and concepts, and helping them make
connections among them, is what constructivist teaching is all
about.
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Recognition of the efficacy of Matt's teaching, and its common bond
to most other science teaching, was a step in helping Matt and other Support
Teachers come to grips with an important feature of instructional improvement.
It helped Matt feel his teaching was partly sound, and it gave him two
other ways of moving beyond the perceived criticism. First, it allowed
him to recognize that he was not alone in not providing support for building
understanding. Second, it gave him a vehicle to begin to determine ways
of learning how to improve his teaching.
The "Mercedes' Model" for Teaching and Learning
Since that time, I have elaborated and clarified this formulation into
the model that is shown in Figure 1.
Figure 1: The "Mercedes" Model for Teaching and Learning
Teaching science can be thought of as having three components: (1) helping
students "build" a base of science knowledge on which understanding
and application can occur, (2) aiding students in developing understanding
of the elements of that knowledge base, and (3) assisting students in
applying their knowledge.
It is important to note that each of these components requires different
teaching strategies, (See Table 1.) Familiar, traditional teaching strategies
are found in column 1 related to "building students' knowledge base."
Newer teaching strategies such as group work and writing to learn are
found in column 2, "developing understanding." The strategies
in column 3, "applying knowledge," are not part of our common
teaching vocabulary and are in need of further development.
Table 1: Teaching-Learning Activities to Achieve Different Educational
Goals
| Building a Knowledge Base |
Developing Understanding |
Applying Knowledge |
| Lecture |
Concept mapping |
Searching for applications |
| Reading textbooks or other sources |
Individual or group writing open-ended responses to
questions requiring sense-making or making connections |
Individual or group writing open-ended responses to
questions requiring application of science knowledge |
| Lab and hands- on activities |
Group work that is oriented to sense-making or making
connections |
Group work that requires application of science knowledge |
| Watching videos and movies |
Preparing and giving public presentations that require
explanation of science principles |
Preparing and giving public presentations that require
application of science principles |
| Assigning science vocabulary words |
Being analytical about science vocabulary |
Applying science vocabulary appropriately in written
and oral presentations |
| Assigning most end-of-chapter questions and problems |
Assigning end-of-chapter tasks that focus on sense-making
and making connections |
Assigning end-of-chapter tasks that focus on applications |
| Objective testing |
Essay tests, constructed responses |
Tests involving applications of knowledge |
The center and right-hand columns of Table 1 present significant challenges
to teachers regarding the application of what may be new techniques for
teaching. Some professional development resources that were not available
when we did this work, but have since proved quite helpful in similar
work, include Johnson, 1994; Driver et al., 1985; White and Gunstone,
1993; Wiggins and Mctigue, 1998; and Gallagher, 1996.
The Summer Program
In the middle of August 1988, the Support Teacher team spent a week in
a university-based retreat with the MSU team that had worked with them
since the previous February. The eight Support Teachers lived together
in one of our more elegant dormitories, each suite having its own living
room, bedroom, bath and kitchenette. The group resided in pairs in these
facilities for four nights-Monday through Thursday. The days were filled
with sessions oriented toward their imminent initiation of the Support
Teacher program in their four schools with their peers when school opened
a couple weeks later. As noted earlier, we wanted the teams to be able
to "hit the ground running" when they began. Therefore, the
content dealt with daily, weekly, and monthly schedules of work; organizing
their resource rooms; interacting with peers and administrators; planning
and conducting departmental meetings; working with individual teachers
to support their improvements in teaching; etc. However, as illustrated
in Vignette 3, it was only when the Support Teachers got together on their
own to share concerns and develop their own action plans that they began
to feel comfortable with their roles.
Vignette 3: A Breakthrough
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Tuesday evening in our week long, August, summer program was another
turning point for the group. Dinner at my home concluded about 9:30
p.m. and the Support Teachers returned to their dorm and entered
into a long discussion that lasted into the wee hours of the morning.
It was at this time that the reality of their new role really hit
them and they spent several hours in serious, extended discussion
about their upcoming work as Support Teachers. The next morning
a tired but satisfied group of colleagues appeared at our meeting
room door, feeling much better about their future work. Equally
important, a good bit of their anxiety about the coming year had
been alleviated through the sharing of concerns and creating of
action plans that occurred that night. This made the rest of the
week go much better as we continued to hone skills, make plans,
and deal with added concerns relating to their new role.
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The success of the Support Teachers' independent actions on that Tuesday
night was very pleasing to us and to them. It set a resolve among the
group members that they should meet as a group, at least once per month,
independently of the MSU team to work out their own resolutions to problems
and to maintain the solidarity of the group. These meetings continued
over most years of the program.
Implementing the Program: Skeptics and Resisters
As the Support Teachers began their work, a feature that was observed
in each of the eight departments was the presence of one person who offered
active resistance to the program and to the Support Teacher. A few persons
across the eight departments were skeptics about the potential impact
of the program. Others were jealous of the "freedom" that the
Support Teachers enjoyed with only three classes. These skeptics gave
little recognition of the demands of the position and the work that Support
Teachers were doing. This was not a serious problem, however, because
these individuals were not strongly negative about the program. Gradually,
over time, the skeptics came to appreciate the work that was being done
and they entered into effective collaboration with their respective Support
Teacher.
The resisters were a problem. They did not relent. The program continued
for 12 years, ending in June 2000, when the district came into a serious
financial crisis. After all that time, three of the original eight resisters
remained in their positions, the other five had retired. All of the resisters
were unyielding in their lack of cooperation with the Support Teachers,
despite the efforts of the Support Teachers, the union, the administration,
and the MSU team. The depth of the resistance is illustrated in the following
vignette.
Vignette 4: Resisting Change-At What Cost?
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One Support Teacher and a resister taught side-by-side for all
twelve years in two classrooms that were only partially separated
by a wall. They passed through each other's classroom daily. In
all this time the resister never adopted any of the instructional
techniques or suggestions that came from the Support Teacher. The
resister retained his traditional stance toward teaching, using
the same worksheets and approaches that he had used from long before
the initiation of the program. Much of the instruction in his classes
revolved around individual seatwork. Few demonstrations and virtually
no hands-on activities or group discussion occurred.
In June, the Support Teacher retired, and the resister indicated
that his stance was vindicated because he had outlasted his colleague.
A comparative study of the learning outcomes in the classes of
these two teachers told a different story. To assess the efficacy
of the program, we created a test to measure growth of student performance
and understanding in science. At the end of the third year of the
program, we administered the test to students in all four schools
with Support Teachers. Results were analyzed and students of each
teacher and Support Teacher were compared, recognizing that some
teachers were making faster progress in developing more effective
teaching skills than others. Detailed results were available only
to the MSU team members. Limited reporting of data was done so that
the identity of the teachers and classes were not known as we did
not want the test to be seen as a threat to teachers and the program.
On this test, given three years into the program, great differences
existed between achievement of students in classes of the above-mentioned
two teachers, even though both teachers' students were equal in
prior achievement and both teachers had equal knowledge of the test
prior to its administration. Students in the Support Teacher's class
scored higher than students in the resister's class on every item
of this test. On open-ended items requiring novel solutions the
differences were even more pronounced (in fact only 29 percent of
students in the resister's classes attempted answers, compared to
100 percent of students in the Support Teacher's classes).
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An Important Lesson about Teacher Change
In the early years of implementation, we continued to meet for two days
per month through the first years of implementation. In these meetings,
we continued to have seminars on one day each month and we spent the other
day "working at the elbows" of the Support Teachers in their
schools to help them in practical ways with the implementation of their
new roles. This put us in contact with their teaching peers, their administrators,
and their students. The Support Teachers' confidence that we were grounded
in the realities of the day-to-day work in the district helped create
a culture of honesty, where they felt free to share their frustrations,
as well as their successes. (See Vignette 5.)
Vignette 5: A Teacher's Insight
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After four months into the first year of implementation (eleven
months after initiation of the program), we devoted one of our monthly
seminars to a serious reflection about the progress that had occurred
and the problems that were confronting the Support Teachers in their
work.
The discussion was open, candid, and productive. A few minutes
into the discussion, Jane, a science Support Teacher in an inner-city
school, made the following statement that all of the others agreed
with. She said, "Over the past several months we have formed
a new vision of what it means to teach and for students to learn.
However, our skills as teachers have not caught up to that vision,
and we are frustrated."
This was such an important insight that more than a decade later,
I can still see her making the statement, and her words still ring
in my ears.
- Vision outrunning skills!
- Frustration in not being able to implement the vision!
- Motivation to continue to learn so that the vision can be realized!
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Post-Script
When a major budget crunch came to this district in the Spring of 2000,
with a critical shortfall of funds, the school leaders made a first-round
response by canceling all programs that were not involved in direct instruction
of students except the Support Teacher Program. However, under
the realities of the budget constraints, this program also was eliminated
to save its annual cost to the district of approximately $250,000. Its
importance to the district was recognized in terms of the value for professional
development of the middle school teachers, having been expanded from four
to six of the eight schools and to the improved achievement of students
on external standardized measures in both mathematics and science. It
was compelling evidence of the higher achievements of students on standardized
tests that made it possible for this highly visible, high cost program
to stay in place for such a long duration in an environment where programs
often last three years or less.
There are many other important lessons that we learned and priceless
vignettes to relate about this wonderful experience with these Support
Teachers over twelve years. Working with them has been a personal and
professional treasure for me and my colleagues. I have shared a few of
the lessons as vignettes in the hope that others can see the benefits
of long-term, professional development activities for all parties concerned-the
teachers, their peers, the staff development personnel, and others not
directly involved as the culture of the schools change because of extended
interactions. But most of all, the work has had a positive effect on students
as they have had better experiences in school, learned more, and achieved
better on whatever measures were used because of the long-term professional
growth of teachers and those who educate them.
It is interesting to note that all four of the original science Support
Teachers continued for the duration of the project or until their retirement.
One retired at the end of year 10 and a second retired at the end of year
11. When the project ended, the third science Support Teacher retired,
leaving only Linda from the original four. The mathematics Science Support
teaching team had more turnover, yet Mary, Linda's mathematics counter-part
at the same school, also remained after the program closed. Both returned
to full-time teaching.
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