Document Camera and Technology Implementation at the Elementary School Level A Field Project Presented to the Faculty of the Graduate School of Education TOURO UNIVERSITY - CALIFORNIA In Partial Fulfillment of the Requirements of the Degree of MASTER OF ARTS in EDUCATION With Emphasis in Educational Technology
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Document Camera and Technology Implementation at the Elementary School Level
A Field Project Presented to the Faculty of the Graduate School of Education
TOURO UNIVERSITY - CALIFORNIA
In Partial Fulfillment of the Requirements of the Degree of
MASTER OF ARTS
in
EDUCATION
With Emphasis in
Educational Technology
By
Megan Gerdts
December, 2010
Document Camera and Technology Implementation at the Elementary School Level
In partial Fulfillment of the Requirements of the
MASTER OF ARTS DEGREE
In
EDUCATION
BY
Megan Gerdts
TOURO UNIVERSITY – CALIFORNIA
December, 2010
Under the guidance and approval of the committee and approval by all the members, this field project has been accepted in partial fulfillment of the requirements for the degree.
Approved:
___________________________ ___________________Pamela A. Redmond, Ed.D. Date
__________________________ ___________________Jim O’Connor, Ph.D, Dean Date
TOURO UNIVERSITY CALIFORNIAGraduate School of Education
Author Release
Name: Megan Gerdts
The Touro University California Graduate School of Education has permission to use my MA thesis or field project as an example of acceptable work. This permission includes the right to duplicate the manuscript as well as permits the document to be checked out from the College Library or School website.
In addition, I give Dr. Pamela Redmond permission to share my handbook with others via the Internet.
Signature: __________________________________
Date: ______________________________________
i
Abstract
Our lives have been transformed by new technology and it is no surprise that technology
is quickly making its way into the classroom. Teachers are using document cameras,
computers, LCD projectors, and digital cameras to teach students. With this influx of
technology comes of a lack of professional development and training. Many teachers lack
the skills and desire to effectively use technology in preparing and delivering standards-
based lessons. An elementary school in northern California purchased document cameras
and LCD projectors for all of its teachers. This implementation project provided a
handbook and the staff development required for the staff to successfully use document
cameras in delivering effective, engaging, standards-based lessons.
ii
Table of Contents
ABSTRACT............................................................................................................ I
LIST OF TABLES................................................................................................ IV
LIST OF FIGURES.............................................................................................. IV
Statement of the Problem.................................................................................................................................2
Background and Need......................................................................................................................................3
Purpose of Project.............................................................................................................................................5
Figure 1 demonstrates that where content knowledge and technological knowledge met, a
new kind of knowledge was created called technological content knowledge. An
example of technological content knowledge could consist of combining the content
knowledge of a social studies lesson on the causes of the Revolutionary War and the
technological knowledge of using technology to create an interactive timeline and lesson
about the causes of the Revolutionary War. Teaching only the content required different
knowledge than teaching the content in the context of technology. Although, TPACK
was not a prescription for how educators should be trained to teach, it was a model by
which educators could understand their own knowledge and better prepare themselves for
teaching effectively with technology. In the TPACK model, each knowledge area
12
covered specific topics and concepts that must be understood in isolation before they are
combined.
Content Knowledge. Content knowledge is the information, ideas, hypotheses,
and procedures within a given subject area. It is the knowledge specifically needed to
teach a subject. The content knowledge in a middle school art class is very different from
the content knowledge needed to teach a high school math course. Understanding
content knowledge includes the ability to compare and contrast different subject areas
and determine if they have anything in common (Mishra & Koehler, 2006).
Pedagogical Knowledge. This kind of knowledge involves an understanding of
how people learn. Someone with deep pedagogical knowledge would thoroughly
understand how people construct knowledge, obtain skills, and create positive habits and
attitudes in their learning. Pedagogical knowledge requires an understanding of theories
and how these theories apply to students in a classroom (Mishra & Koehler, 2006).
Technological Knowledge. Technological knowledge is knowledge about
technologies including books, magazines, and whiteboards, as well as more advanced
technologies such as digital videos and document cameras. This involves the knowledge
needed to operate the technology as well as use multiple technologies together.
Technological knowledge encompasses familiarity with computer hardware as well as
software programs. Since the technology available is always changing, someone with
technological knowledge must be able to move with the changes and adapt old
knowledge to learn new technology (Mishra & Koehler, 2006).
Shulman’s (1986) research on content and pedagogical knowledge is what Mishra
and Koehler used when they started their research on TPACK. Shulman’s idea about
13
pedagogical content knowledge (PCK) was important in conveying the concept of a new
knowledge area where two areas met.
Pedagogical Content Knowledge (PCK). This area of knowledge includes
understanding pedagogy well enough to determine what type of lesson will teach the
content most effectively. It also includes knowledge of students’ backgrounds in the
content area as well as an understanding of what makes concepts easy or difficult to
learn. Using PCK is what makes up the art of teaching (Mishra & Koehler, 2006).
Technological Content Knowledge (TCK). The relationship between
technology and content knowledge is always changing, however this type of knowledge
is demonstrated when a teacher uses a specific technology to teach content. Teachers
must know the content, but also how to use the technology in the context of the
classroom in order for all students to learn. Many software programs change the way that
content is presented such as in a game format or virtual manipulation of shapes in a
geometry lesson. Some of these programs offer students the opportunity to construct
knowledge somewhat passively, while they “play” (Mishra & Koehler, 2006).
Technological Pedagogical Knowledge (TPK). The knowledge of what
technologies exist, how to use them, and understanding that teaching may change as a
result of using specific technologies are all aspects of TPK. In addition, this knowledge
area includes an understanding of pedagogical strategies and the ability to apply those
strategies to different technologies (Mishra & Koehler, 2006).
Technological Pedagogical Content Knowledge (TPCK or TPACK). This is
the newest area of knowledge that extends beyond the three knowledge elements.
TPACK is the foundation on which solid teaching with technology occurs. This model of
14
technology integration requires a person to be thoughtful in how they intertwine the three
core knowledge areas. A superb technology integrator is one who has a firm grasp on the
content and pedagogy and is able to select the appropriate technology to deliver an
effective lesson. Successful integration balances these three components. Lessons are
taught in a specific context. It is very important to be aware of the context because it will
change as the content and students change (Mishra & Koehler, 2006).
In the following sections, the hindrances and affordances of integration are
explored as well as the application of TPACK in training teachers.
Technology Integration Factors
Taylor, Casto, and Walls (2004) found that students who learned subject matter
with effectively integrated technology, gained more knowledge than students who
learned the same information without technology. In order for technology to be
implemented and used effectively, teachers need training in how to do this. Many
variables determine whether a teacher will fully integrate computers or not. These factors
included: (a) positive teaching experiences with technology; (b) teacher’s comfort with
computers; (c) beliefs supporting the use of computers as an instructional tool; (d)
training and support; (e) motivation; (f) and teaching efficacy (Mueller et al., 2008).
Baek, Jung, and Kim (2008) found that many of the factors that affected implementation
were external and based on others’ requests or perceived need for technology. Their
research also suggested that teachers with more experience were less likely to begin
implementing technology in their classrooms while new teachers were more motivated to
use it willingly.
15
Based on the TPACK model and the findings of Baek et al. (2008) and Taylor et
al. (2004), a conclusion might be drawn that teachers’ willingness to integrate technology
is somewhat based on their training and comfort with technology. Teachers can be
trained well in content and pedagogy, but despite training in technology as a requirement
in teacher credentialing programs, much of the learning is techno-centric or focused
solely on the technology. This training does not include hands-on application of content,
pedagogy, and technology as suggested in TPACK. Preparing teachers to use the
TPACK model must include the application of the three knowledge areas and time to be
successful in using technology. Mueller et al. (2008) found that teachers’ positive
experiences with computer technology were the greatest contributor to successful
integration. They proposed that perhaps these positive experiences boosted teachers’
confidence in using technology. They also indicated that teachers needed to see that
technology had the potential to improve learning before they became willing to use it in
their classroom. This finding demonstrated the importance of professional development
that is teacher-focused and based on pedagogy that is applicable to the content focus.
Teachers need to see how to integrate technology effectively as well as be convinced that
technology works.
Addressing these integration factors in teacher trainings and preparation programs
is important. However, there are many teachers who received little or no technology
training when they were in a teacher licensure program. This lack of prior education
forces school districts to be responsible for training their teachers to be effective
integrators.
16
In order for teachers to integrate technology, there needed to be training standards
and professional development guidelines (Pittman, 1999). Before the Department of
Education (DOE) adopted national standards in 2007, prominent organizations in the
educational technology field began putting forth recommendations for what best practices
and models should be addressed. Mishra and Koehler (2006) stated that teachers needed
to learn not only the basics of software and hardware, but needed a deep understanding of
the technology available. This deep understanding allowed teachers to be flexible and
teachable through the many changes and enhancements that happen over time. In
addition to a deep understanding, Mishra and Koehler found it was important for teachers
to appreciate the interrelationships that exist between the technology, tools, users, and
methods. This was a very fluid and ever-changing interaction. For teachers to be
successful in integrating and using technology, they had to be able to appreciate it and be
willing to learn new things and apply their knowledge to new situations. The DOE
standards that were adopted in 2007 addressed performance indicators for students,
teachers, and administrators. Each set of standards also addressed not only the use of
technology, but also how to be a digital citizen and grow in your knowledge of
technological issues.
Mishra and Koehler (2003) suggested that, during training sessions, teachers work
in groups and learn by solving an educational issue using technology. With this method,
teachers had a lower affective filter because they were working in a group and could
move at their own pace. Since they used technology to solve a problem that the trainer
posed, teachers learned what it was like to be on the student side of learning. In general,
they focused more on solving the problem and less on learning the technology. In other
17
words, technology was being taught implicitly, not explicitly. This model of learning
supported the idea that Young (2003) proposed. Young studied different computer-based
learning environments. The research findings suggested a model in which students
learned from computers not with computers. This meant that students, aided by a
computer, actively constructed knowledge within a specific context. In contrast to
instructor-led learning, the teachers in this class used a broader range of technologies to
solve the problem, hence giving students experience with a larger number of programs
and platforms.
Brown and Warschauer (2006) studied the teacher preparation programs. Their
research found that most programs and field placements fell short. Students reported that
they were too busy with other classes to focus and learn what they needed to for the
technology classes. The same trend was found during student teaching placements.
Student teachers were overwhelmed with class work and found it difficult to integrate
computers, so many chose not to use them. As Mishra and Koehler (2005) found, the
teacher preparation courses focused on mastering hardware and software functions, rather
than tasks that could be used for integrating technology. Brown and Warschauer (2006)
believed that infusing technology into the methods courses would provide a context and a
collaborative learning environment by which teachers would learn technology and
content more effectively. They also believed that teacher-education faculty needed to
model the use of effective technology integration. Once teachers completed the
preparation program, Brown and Warschauer (2006) suggested that teachers be placed
with a technologically proficient mentor. This person would be a role model as well as
be able to provide information and suggestions for successfully integrating technology.
18
Application to New Technologies
Teachers need specific contextual examples of how to integrate technology.
Clemmons & Hayn (2009) focused on the interactive aspect of document cameras and
gave many examples of ways to integrate document cameras into curriculum. Their
research focused on effective integration supported Mishra and Koehler’s (2006) research
demonstrating that context along with technology is a new area of teacher knowledge.
Using the context of a content-specific lesson, Clemmons and Hayn (2009) gave teachers
an opportunity to use technology successfully.
Harris and Hofer’s (2009) extensive work with activity types, specific kinds of
lessons that worked well with certain technologies, demonstrated that lesson design is
paramount in effectively using technology and training teachers to integrate technology.
Harris, Mishra, and Koehler (2009) gave extensive examples of technologies that were
compatible with specific activities. Suppose a teacher wanted students to create a
narrative writing about an event in the past. The technologies that were found to be most
compatible with that activity were word processors and concept mapping software.
Although Harris and Hofer’s research was not a prescribed set of parameters for
integration, they created a very user friendly model.
Table 1 identifies many activity choices for knowledge-based activities within the
context of social studies curriculum. It demonstrates that if a teacher wanted students to
listen to a radio broadcast and learn about a historical event, the compatible technology
may include MP3 files, podcasts, CDs, and radio. Using this table, teachers can
determine quickly what kind of technology would be best for a specific activity.
19
Table 1.
Knowledge Building Activity Types
Source: Hofer, M., & Harris, J. (2009, February). Social studies learning activity types. Retrieved from College of William and Mary, School of Education, Learning Activity Types Wiki:http://activitytypes.wmwikis.net/file/view/SocialStudiesLearningATs-Feb09.pdf
20
Technology Implementation in the Current Study
Based on the research, it became clear that technology implementation was not a
short, easy process. Teachers’ prior knowledge, attitudes, and experiences must be a
consideration when developing an implementation plan.
Mayer (2003) researched design methods across different media and found that
students gained a deep understanding of the content and material regardless of the media
used. This research was important to implementation because it demonstrated that there
were many different types of media available. As long as the instructional design was
sound, students learned the material with significant depth whether it was using text and
illustrations or narration and animation (Mayer, 2003).
Sound instructional design is rooted in the concepts presented in Mayer’s (2003)
cognitive theory of multimedia learning (CTML). This theory focused on the idea that
multimedia instructional messages designed in light of how the human mind works are
going to be more understandable than ones that are not (Mayer, 2003). His theory of
learning stated that a person has two channels through which information enters the brain
and there is a limit as to how much the brain can process. Mayer found that people learn
more effectively if pictures and printed words are presented separately rather than
simultaneously. There appeared to be a limit to the amount of information a person can
process visually, so it may be beneficial to see pictures and hear narration, rather than see
words and pictures together.
Pairing Mayer’s (2003) CTML with Mishra and Koehler’s (2006) theory
regarding knowledge, one could create an implementation plan that successfully merges
visual and auditory concepts with content, knowledge, and technology. Although Mishra
21
and Koehler didn’t explicitly discuss document cameras, or document readers, as a form
of visual technology, this technology has been used in schools as a visual media along
with auditory components. Visual media such as digital photos, video, and document
cameras are being used in classrooms with little training in effective integration.
Summary
Technology evolves daily and with those changes comes a need for teacher
training. Teachers not only need to know the content and pedagogy behind the standards
that they teach, but also should be able to select appropriate technologies to use. Mishra
and Koehler’s (2006) research on knowledge led to the creation of the technological,
pedagogical, and content knowledge framework for multimedia instruction. Using this
research with Harris and Hofer’s (2009) work on activity types, the researcher created an
implementation plan for using document cameras at an elementary school. Applying the
TPACK and activity type theories to document cameras was a natural step forward since
document cameras contain much of the same technology as computers, digital cameras,
and digital video recorders.
This study proposed to use the research to create an implementation plan for
document cameras based on the findings of Harris and Hofer (2009), Mishra and Koehler
(2006), and Mayer (2003). Document cameras are a digital projector that allows the user
to project an image of an item or document onto a screen. Document cameras are useful
with microscopes, as a digital camera, and as an interactive tool. At the time of this
writing the research on document camera use was very limited. However, studies on
visual media and technology integration were applied easily to the goals of this project.
Using this research, an implementation plan that included Harris and Hofer’s activity
22
types and examples of successful lessons using TPACK was created for an elementary
school that recently purchased document cameras.
23
Chapter III
Technology is here to stay. Many school districts have embraced it and when the
finances are available, teachers use amazing technologies such as LCD projectors,
document cameras, interactive whiteboards, laptops, and much more. With each of these
technologies comes a new skill set requirement for teachers – not only the ability to use
the technology, but also the ability to integrate each technology with pedagogy and
content in the creation of a lesson plan (Mishra & Koehler, 2006). In the target school
district of this study, effective integration was essential in order to maximize the learning
potential of the students. Unfortunately, due to the cost of teacher trainings, most
technology was given to teachers with little training in how to use it to engage students
and encourage them to learn. Often times, teachers were left to figure out how to use and
integrate the technology with little support from district staff development trainings.
Background
This project started as a way to fill the implementation and staff development gap
that existed at a suburban elementary school. As the teachers received document cameras
and LCD projectors, there were very few resources available for teachers to learn more
about using the document cameras in the classroom. It became apparent that many
teachers were using the document camera as a glorified overhead projector. Teachers
didn’t know how to use it in ways that were more engaging and student focused. Taylor,
Casto, and Walls (2007) found that students who learned subject matter with effectively
integrated technology, gained more knowledge than students who learned the same
information without technology. In order for technology to be implemented and used
effectively, teachers needed training in how to do this.
24
About the time that the document cameras arrived, the staff at many of the district
elementary schools had attended trainings centered on the subject of student engagement.
In years past, the district had paid for different professionals to train teachers in
engagement strategies. When the district could no longer afford to pay professionals to
train teachers, it fell on the principals to encourage teachers to continue using the
strategies that they had been taught. Some of the principals got together and created a
concise reference of engagement activities to use in the classroom. It offered a name for
each activity, as well as a very brief description of how to carry it out. Many of the
teachers felt that this was a useful tool to pick up and use. It was a tool that most teachers
embraced.
As this project evolved, it was apparent that the teachers needed something
tangible to refer to when planning lessons that involved technology. The handbook that
had been given to them with ideas for engagement strategies was easy-to-use, concise,
and non-threatening. After observing how teachers appreciated and used that handbook,
the researcher decided that the handbook for document cameras had to be similar. It
needed to be something that teachers would find helpful, useful, and encouraging. In the
past, some of the teachers were very hesitant to use technology, so this handbook needed
to be easy to use.
Project Components and Design
The two objectives of this project were to 1) create a handbook that offered
activity suggestions for how to effectively integrate a document camera as well as some
useful internet resources and 2) plan staff development trainings that addressed the use of
the document camera.
25
The research demonstrated the importance of teacher-centered staff development.
All teachers had experiences with technology that affected how fully they implemented it
in their classroom. In addition, there were external factors that influenced how well
technology was integrated and put to use in the classroom. These factors included the
availability of technology, support from administration, and training (Baek, Jung, & Kim,
2008). Using Mishra and Koehler’s (2006) studies regarding technological, pedagogical,
and content knowledge (TPACK), it was clear that proper implementation had specific
characteristics. The teacher had to have content, pedagogical, and technological
knowledge. In addition, teachers had to be able to learn and implement areas of
combined knowledge such as content-technological or pedagogical-content knowledge.
Using the TPACK model and Harris and Hofer’s (2009) research on activity types, the
lesson design needed to be focused on the concept that certain technologies are better
than others in delivering content in a certain context.
After reading the TPACK model, the researcher learned that Mishra and
Koehler’s (2009) lesson planning strategy followed a model with a specific sequence.
Mishra and Koehler suggested that teachers first choose the technology that they desire to
use. After that was determined, then the teacher decided what content should be taught.
This seemed appropriate for this project, since this project was focused on document
cameras and appropriate implementation of that specific technology.
The design of the handbook using TPACK as a basis for planning lessons,
however, the work of Judi Harris and Mark Hofer (2009) was very concise and based on
the TPACK model. As their activity-types were reviewed, they appeared to be a very
important concept that should be included in the handbook. Harris and Hofer’s table of
26
activity types was concise and seemed to be most appropriate for the purpose of this
project.
At this point in the handbook preparation, the researcher was certain that the
handbook would be created quickly. The outline for the handbook included the TPACK
model and the activity-type tables created by Harris and Hofer. The tables were to be
modified to include information specific to document cameras. The research all pointed
in one direction – until the discovery of Harris and Hofer’s (2009) approach to lesson
planning. Their research and planning model was set up so that the teacher first chooses
the content that he/she wants to teach, and then chooses the technology that would best
deliver the content within the parameters of solid pedagogy. This planning approach,
though it was the opposite of Mishra and Koehler’s (2009), seemed plausible because a
teacher had to know what subject area he/she was going to teach before beginning to
plan.
The dichotomy between Harris and Hofer (2006) and Mishra and Koehler’s
(2009) planning approaches caused the handbook creation to come to a halt. The
teachers at this suburban elementary school knew nothing of Mishra and Koehler or
Harris and Hofer – yet the researcher felt tremendous responsibility to represent each of
the planning approaches accurately and, ultimately, present the best method for planning.
After more reading and discussion with colleagues and advisors, the researcher
determined that perhaps both sets of researchers could be correct in their planning
methods. At some point, teachers had to plan in the way that is most comfortable for
them and made the most sense for the content being taught. Some teachers would always
plan lessons like Mishra and Koehler suggested, using the document camera, and then
27
selecting the content. Other teachers were more comfortable first selecting the content,
then the technology that worked best with whichever standards were chosen as Harris and
Hofer suggested.
This project was designed to take advantage of both approaches and not to be a
proponent of one or the other. It was determined that Harris and Hofer’s (2009) tables
would be ideal for the handbook. The tables had excellent activities that included the use
of document cameras. The outline that was created for the document camera handbook
included modifying the tables to fit the purpose of this project. Out of respect for Harris
and Hofer and their work, the researcher wanted to gain permission from them to use
their tables. Their Creative Commons Licensing does not allow for anything to be
derived from, added to, or taken away from Harris and Hofer’s work. Some of the
wording in the license was unclear, but after Harris clarified that portion, the tables
couldn’t be used in this project without modifying them. While they were a useful
resource, the licensing agreement prohibited anything to be derived from the material.
Permission was obtained to put the tables in the Appendix as they were published with
credit being given to Harris and Hofer for their work.
The target school district had recently published an engagement strategies booklet
that had easy to reference tables of activities. It seemed that a similar table would be
helpful. The formatting of the table for this project was difficult. The researcher wanted
the table to be relevant, research based, and easy to use – yet needed to follow the terms
of Creative Commons Licensing. With input from colleagues, four categories of
activities were selected: direction instruction, assessment, inquiry, and problem based
activities. While there was overlap in some of the areas, teachers were able to get solid
28
ideas in how to use their document cameras. Harris and Hofer (2009) suggested that
activities and the technologies used would differ depending on the content. For this
project, the researcher chose to create activities for the science content area.
Planning staff development was an important part of this project. Staff
development was an essential element in teachers integrating technology effectively.
Based on the TPACK model and the findings of Baek, Jung & Kim (2008) and Taylor,
Casto &Walls (2007), a conclusion was drawn that teachers’ willingness to integrate
technology was somewhat based on their training and comfort with technology. It
appeared that teachers are trained well in content and pedagogy. Preparing teachers using
the TPACK model included both the application of the three knowledge areas and time to
be successful in using technology. Mueller, Wood, Willoughby, Ross & Specht (2008)
found that teachers’ positive experiences with computer technology were the greatest
contributor to integration. They proposed that perhaps these positive experiences boosted
teachers’ confidence in using technology. Using these models, the trainings were to be
activity-based and specific to a particular content area. By modeling how to use the
document camera and specific web-sites, teachers would have to opportunity to see that
using document cameras was easy and effective.
Due to the timing in the school year in which this project was completed, the
training portion of this project could not be developed or implemented. During each
upcoming staff development session, the researcher will model three or more of the
activities presented in the handbook. There will also be time for teachers to ask questions
and get trouble-shooting help as needed. The researcher plans to utilize the websites that
appeared in the handbook as well. Many of these websites offered teaching strategies
29
and ideas for using technology. This process will span the course of a few months to
maintain a low-affective filter and the enthusiasm that teachers currently have for
document cameras.
Summary
Using the design principles set forth by Harris and Hofer (2009), and Mishra and
Koehler (2006), this project created a handbook that allowed teachers easy access to
content-based activities using a document camera. The receipt of technology was
exciting for the staff, however, the teachers needed guidance in how to use it. This
project planned staff development and offered suggestions in how to successfully
integrate document cameras. The focus on this project was the creation of a handbook to
aid teachers in using document cameras. With an easy-to-use, concise manual, teachers
were able to reference activities based on student learning objectives.
30
Chapter IV
Document camera technology transformed the way that students learned and
teachers presented lessons. When document cameras arrived at the northern California
elementary school in this study, there was an immediate need for staff development in
proper implementation of the technology. Unfortunately, each document camera came
with merely an instruction manual for basic functions, but nothing was included that
would give teachers support in how to implement the technology effectively.
Prior to receiving the document cameras, the staff received training on
engagement strategies accompanied by a booklet with useful engagement strategies set in
a concise and easy-to-use format. After observing the enthusiasm over the engagement
strategies booklet, this project was conceived to create a research-based handbook with
activity and lesson plan suggestions for using a document camera as a useful resource for
the teachers. That handbook became the starting point for this implementation project.
The overall goal of this project was to create resources to support teachers to develop
their own lessons that implement the use of document cameras to support student
learning.
Project Outcomes
Two objectives were set to meet the goal of this project 1) create a handbook that
offered activity suggestions for how to effectively integrate a document camera as well as
useful internet resources and 2) plan staff development involving the document camera
and useful websites.
The handbook portion of this project required both research and format decisions.
Teachers needed materials that were concise and easy to use. The aforementioned
31
engagement strategies handbook was well received and provided a simple table of
strategies with the name of each and a short description of how to carry it out. This
became the model for the product (see Appendix) in this study. It was hoped that this
handbook would be received with the same level of enthusiasm by the teachers. In 2009,
Harris and Hofer’s research on lesson planning and activity types provided much needed
insight into a way to manage and organize the many activities in which technology can be
integrated. Harris, Mishra, and Koehler (2009) gave extensive examples of technologies
that were compatible with specific activities. Suppose a teacher wanted students to create
a narrative writing about a past event. The technologies that Harris and Hofer found to
be most compatible with that activity were word processors and concept mapping
software. Although Harris and Hofer’s research does not prescribe a set of parameters
for integration, they created a very user-friendly model.
The staff at the target elementary school had basic knowledge of how a document
camera functions. However, there was knowledge required beyond simply knowing how
the technology worked. A teacher had to know how to successfully integrate technology
to maximize the effectiveness of the lessons presented. In 2006, Mishra and Koehler’s
research on Technological Pedagogical Content Knowledge (TPACK) gave a model that
asked teachers to use their knowledge of content, pedagogy, and technology when
designing student learning opportunities. This model of technology integration required a
teacher to be thoughtful in how they intertwined the three core knowledge areas. A
superb technology integrator was one who had a firm grasp on the content and pedagogy
and was able to select the appropriate technology to foster student learning. Successful
32
integration balanced the three components of technology, content, and pedagogy (Mishra
& Koehler, 2006).
Similarly, staff development must be centered on the three knowledge areas
(pedagogy, content, and technology) and acknowledge the needs and experiences of the
teachers being trained. All teachers have had experiences that impact their willingness
and ability to integrate technology. These factors included:
a) positive teaching experiences with technology
b) teacher’s comfort with computers
c) beliefs supporting the use of computers as an instructional tool
d) training and support
e) motivation
f) teaching efficacy (Mueller et al., 2008).
The researcher planned to focus on two to three of the activities listed in the
Appendix during each staff development session.
Timeline and Recommendations for Implementation
This project was created and planned to be executed over an entire school year.
The intended timeline was to have teachers receive the handbook and simple instructions
at the beginning of the school year. In the 2011-2012 school year, this project will be
field tested at the target elementary school. During successive staff development
meetings, the researcher will present two to three lessons and activities from the
handbook. By modeling the activities, teachers will have the opportunity to ask questions
and collaborate with colleagues prior to actually trying the activities in their own
classroom.
33
The handbook contains specific activities that were developed on the TPACK
framework. When implementing staff development, the trainer must first consider the
audience, their experiences, and their technological, pedagogical, and content knowledge.
Keeping in mind the research by Mueller et al. (2008), we know that teacher’s technology
integration depends on the following factors: (a) positive teaching experiences with
technology; (b) teacher’s comfort with computers; (c) beliefs supporting the use of
computers as an instructional tool; (d) training and support; (e) motivation; (f) and
teaching efficacy. Using what is known about the teachers at the target elementary
school, the researcher will focus training on the needs of the teachers in an environment
that is supportive, encouraging, and relaxed. Some teachers are very comfortable with
technology and will be able to take the handbook and use it without any problems. Other
teachers will need more one on one training with modeling of specific actions and
activities.
Limitations and Further Development
One unavoidable limitation of this project was presented by the timing of the
school year in which the project was developed. The fall trimester did not allow for the
staff development time to be set aside in order for the handbook to be disseminated and
professional development implemented. Due to the timing in the school year when this
project was developed, the researcher has yet to carry out the staff development portion
of this project. The staff development portion of the project is paramount to the success
of implementation.
Ultimately, when teachers are comfortable with the idea, it would benefit staff to
have an interactive website where teachers can post their lesson ideas as well as feedback
34
on lessons that have already been taught. This forum would be a useful way for everyone
to grow professionally and provide a place for educators to share lesson plans, express
their frustrations, and share successes.
Conclusion
This project grew out of a desire for the researcher’s colleagues to be excited and
willing to jump into technology despite their hesitancy with the proverbial “unknown”.
Throughout the course of this project, the researcher learned how to approach staff
development and how to be effective in teaching the staff. The handbook required more
research than what was originally expected, but the outcome provided solid lesson plan
ideas that were research-based. The researcher looks forward to introducing the staff to
the work of Harris and Hofer (2009) as well as the research done by Mishra and Koehler
(2006).
35
References
Baek, Y., Jung, J., & Kim, B. (2008). What makes teachers use technology in the
classroom? Exploring the factors affecting the facilitation of technology with a
Korean sample. Computers and Education, 50(1), 224-234.
Betrus, A., & Molenda, M. (2002). Historical evolution of instructional technology in