Impact of Technology Essay Example for Free

onlyude of engineering EssayStudents in the early grades, from pre-K to grade 3, and in the middle tutor grades appear to realise well-nigh from DES applications for educateing instruction, as do scholarly persons with excess reading needfully. In a 2000 guide commissi wizd by the Softw be and Information Industry Association, Sivin-Kachala and Bialo (2000) reviewed 311 investigate studies on the strongness of applied science on scholar skill.Their findings revealed positive and consistent patterns when learners were engaged in engineering-rich environments, including signifi fecal mattert invites and hitment in all subject theater beas, increased achievement in pre naturalize with and through superior school for both regular and special needs students, and meliorated attitudes toward skill and increased self-esteem. ODwyer, Russell, Bebell, and Tucker-Seeley (2005) found that, opus controlling for both prior achievement and socio sparing status, four th-grade students who reported greater frequency of engineering commit at school to edit papers were apt(predicate) to sop up higher total English/ diction arts test scores and higher report scores on fourth grade test scores on the Massach pulmonary tuberculosistts Comprehensive estimate System (MCAS) English/Language Arts test.Michigans Freedom to get wind (FTL) initiative, an effort to take into account middle school students and teachers with access to wireless laptop selective affirmation processors, has been credited with improving grades, motivation and discipline in classrooms across the state, with ane exemplary school seeing reading proficiency scores on the Michigan phylogenesis sagaciousness weapons platform (MEAP) test, administered in January 2005, reportedly increasing from 29 percentage to 41 percent for seventh graders and from 31 to 63 percent for eighth graders (e nurture News, 2005).In examining large-scale state and guinea pig studies, as well a s some innovative smaller studies on impertinenter instructional technologies, Schacter (1999) found that students with access to any of a descend of technologies (such as computer assisted instruction, integrated erudition systems, simulations and softw be that teaches higher secern thinking, collaborative networked technologies, or design and programming technologies) show positive gains in achievement on researcher constructed tests, standardized tests, and subject area tests.Cavanaughs synthesis (2001) of 19 experimental and quasi-experimental studies of the effectiveness of interactive distance education exploitation videoconferencing and telecommunications for K-12 academic achievement found a small positive effect in favor of distance education and much(prenominal)(prenominal)(prenominal) positive effect sizes for interactive distance education programs that combine an individualized approach with traditional classroom instruction.Boster, Meyer, Roberto, Inge (2 002) examined the desegregation of standards-based video clips into lessons receiveed by classroom teachers and found increases student achievement. The study of more than 1,400 simple-minded and middle school students in three Virginia school zones showed an average increase in acquire for students undefendable to the video clip application compared to students who genuine traditional instruction alone. Wenglinsky (1998) noted that for fourth- and eighth-graders applied science has positive benefits on achievement as careful in NAEPs mathematics test.Interestingly, Wenglinsky found that using computers to teach low order thinking skills, such as drill and utilization, had a negative trespass on academic achievement, while using computers to solve simulations saw their students math scores increase signifi dopetly. Hiebert (1999) raised a analogous point. When students over-practice procedures earlier they understand them, they have more difficulty making sense of them later however, they prat learn invigorated concepts and skills while they are resoluteness problems. In a study that examined relationship between computer engross and students science achievement based on data from a standardized opinion,Papanastasiou, Zemblyas, Vrasidas (2003) found it is not the computer exercising itself that has a positive or negative effect on achievement of students, save the way of life in which computers are exercised. Researchers are overly making progress on the more complicated project of investigating the disturb of applied science use on higher order thinking skills as measured through means otherwise than standardized tests. They are examining students ability to understand Gordian phenomena, analyze and synthesize multiple sources of schooling, and build representations of their own k presentlyledge.At the same measure, some researchers are calling for radicaler standardized assessments that show the ability to access, interpret, and synthesize entropy. Research indicates that computer applied science nooky help support larn and is in stopicular useful in developing the higher-order skills of unfavourable thinking, analysis, and scientific inquiry by engaging students in regular(a), complex tasks within collaborative cultivation contexts (Roschelle, pea, Hoadley, Gordin Means, 2000 Means, et. al. , 1993). plot of land research linking engineering integration, inquiry-based statement, and idiom on problem solving with student achievement is emergent, some research exists that suggests a connection. In a 2001 study of Enhancing Missouris Instructional Networked learn Strategies (eMints) program, a state encompassing technology integration initiative, eMINTS students scored consistently higher on the Missouri Assessment Program (MAP) than non-eMINTS students, including eMINTS students classified as having special needs. The higher MAP results were found to be associated with the instructional pra ctices (Evaluation Team indemnity Brief, 2002).The eMINTS program provides teachers with master copy increase to help integrate technology so that they plenty use inquiry-based inform and emphasize critical-thinking and problem-solving skills. The program has since expanded to not only Missouri schools and territorys except overly other states as well. Currently, 232 Missouri districts, 10 Utah districts, 56 Maine districts, 2 Nevada districts, and 1 Illinois district, representing 1,000 classrooms and 22,500 students now ambit advantage of the eMINTS program offerings.Test results continue to show that, on most state tests, students enrolled in eMINTS classrooms scored higher than students enrolled in non-eMINTS classrooms and that low-income and special education students in eMINTS classes generally score higher than their non-eMINTS peers (eMINTS, 2005). Results from other studies (Perez-Prado and Thirunarayanan 2002 Cooper 2001 Smith, Ferguson and Caris 2001) also sugg est that students butt end benefit from technology-enhanced collaborative learning methods and the interactive learning process.Roschelle, Pea, Hoadley, Gordin, Means (2000) identify four fundamental characteristics of how technology can enhance both what and how children learn in the classroom (1) active engagement, (2) fragmentiseicipation in groups, (3) buy at interaction and feedback, and (4) connections to real- earth contexts. They also indicate that use of technology is more effective as a learning tool when embedded in a all-encompassinger education reform movement that includes devote betterments in teacher readiness, syllabus, student assessment, and a schools capacity for change.Back To croak FACTORS TO CONSIDER Inclusion Reaching All Students A major(ip) concern of many educators with regard to educational technology is its potential to exclude those who whitethorn not have access to it, or may not be able to use it. Regardless of what research may indicate con cerning positive do of technology on student learning, technology will be of restrict use in achieving the goals of NCLB if is not available to all students. Students at Risk.Research demonstrates that the challenge of helping teachers and students achieve ICT literacy, and the challenge of establishing frameworks for assessing their skills, is most acute in schools serving low-socioeconomic, minority students (Becker, 2000b Becker Ravitz, 1997). While public debate virtually the digital divide centers on basic technology access, the gap is even wider when measured by the pedagogic practices associated with technology use in different schools. more than than half (53%) of teachers in public schools who have computers use them or the profit for instruction during class.But in schools whose students are from higher-income families, 61 percent of teachers with computers use them in class compared to 50 percent of those principle in schools with lower-income students (Lenhart, Ra inie Lewis, 2001). And as wired as many puppyish people are, the same study that found 87 percent of young people use the Internet also found that 3 million remain without Internet access. Many of those without access come from financially disadvantaged backgrounds, and a disproportionate number are black (eSchool News, 2005a).Schools serving students living in penury tend to use technology for more traditional memory-based and remedial activities, while schools serving wealthier communities are more likely to concentre on communication and expression. A nationwide study examining the relationship between socioeconomic status and teaching practices around technology found that teaching in low-SES schools correlated most powerfully with using technology for reinforcement of skills and remediation of skills, while teaching in higher-SES schools correlated most with analyzing information and presenting information to an audience (Becker, 2000b).At the same time, although less studi ed than other outcomes, demonstration efforts and anecdotal secernate suggest that teaching ICT literacy skills (specifically those related to multimedia literacy in tissue, publishing and video production) can improve the economic prospects of at-risk youth by giving them marketable skills (Lau Lazarus, 2002). Back To Top Language Learners. Likewise, in teaching language learners, using technology has distinct advantages that relate not only to language education but preparing students for todays information society.Computer technologies and the Internet are powerful tools for assisting language teaching because Web technology is a part of todays social fabric, meaning language learners can now learn thorough writing e-mail and conducting online research (Wang, 2005). In Oregon secondary schools, wirelessly networked note taking is employ to support Hispanic migrant students who lecture English as a second language (ESL).As part of the InTime project, ESL students attend regul ar high school classes along with a bilingual, note-taking/mentoring partner. Note takers and students communicate using a collaborative word process and graphics package on wirelessly networked laptop computers. During class presentations, ESL students can read their note takers translation of fall upon words, allowing students to build both English and Spanish literacy skills as they advance academically (Knox and Anderson-Inman, 2001). Students with Disabilities. For several decades, the American educational system has taken a narrow view of special education, treating it as a mini-school within the school where teachers, largely cut off from the rest of the supply, faced a group of students with an incredibly wide get together of abilities and disabilities and made the lift out of it. Today, that view of special education is giving way to a broader, more philosophic approachan approach designed to weave inclusive practices into the fabric of the whole-school environment. (MOSAIC, 2000a).The liberation in recognizing the needs of students with disabilities in relationship to their general education peers began with the 1997 amendments to the Individuals with Disabilities knowledge Act. Before the law, many children with disabilities who were not in schools at all because schools had chosen to exclude them (MOSAIC, 2000b). IDEA surfacely established that all students with disabilities have the right to public education. More than 6 million children with disabilities ages 3 to 21 years old are served in federally back up programs (Snyder Tan, 2005).However, students with disabilities frequently fix insufficient access to and success in the general education curriculum. This is especially true(a) for adolescent learners, even non-disabled students, who must cope with the emphasis on learning from text (Biancarosa Snow, 2004 Kamil, 2003). Universal excogitate for eruditeness (UDL) takes advantage of the opportunity brought by rapidly evolving c ommunication technologies to create flexible teaching methods and curriculum materials that can reach diverse learners and improve student access to the general education curriculum (Rose Meyer, 2002).UDL assumes that students charter different needs and skills to the task of learning, and the learning environment should be designed to both accommodate, and make use of, these dissimilitudes (Bowe 2000 Rose Meyer, 2002). To promote improved access to the general curriculum for all learners, including learners with disabilities, Rose Meyer (2002) have set three key principles or guidelines for UDL Presenting information in multiple formats and multiple media. Offering students with multiple slipway to express and demonstrate what they have learned.Providing multiple entry points to engage student interest and motivate learning. For example, printed reading materials pose substantial challenges to the learning of students with disabilities (J. Zorfass personal communication, Oct ober 2005). Technology can assist with such difficulties by change a shift from printed text to electronic text, which Anderson-Inman and Reinking (1998) assert can be modified, enhanced, programmed, linked, searched, collapsed, and collaborative.Text styles and font sizes can be modified as necessary by readers with visual disabilities read aloud by a computer-based text-to-speech translators and integrated with illustrations, videos, and audio. Electronic text affords alternative formats for reading materials that can be customized to match learner needs, can be structured in ways that scaffold the learning process and expand both physiological and cognitive access, and can foster new modes of expression through revision and multimedia (J.Zorfass personal communication, October 2005). It represents one way that technology can support the achievement of students with disabilities. Technology also has a role to function in the test of students with disabilities. A notable outg rowth of NCLB is the legislations mandatory requirement that states account for individual subgroups, which has advertise challenged schools and districts to acknowledge students with disabilities (McLaughlin, S Embler, K Nagle, 2004 Nagle, 2005).State academic content and achievement standards now define the goals of education for all students, and most students with disabilities are now expected to reach the same aim of proficiency as their non-disabled peers. In order to ensure that disabilities do not prevent students from participating in standardized assessments, students with disabilities are entitled to take these tests in the same way as their peers, with accommodations, or with an alternate assessment (Thompson, Thurlow, Moore, 2003).These accommodations or alternatives must not alter the content standard universe measured nor the achievement standard (McLaughlin, Embler Nagle, 2004). While technology can support such accommodations and alternatives, striking a balanc e between accommodation and normalisation across all students testing experiences remains a subject of debate today (Murray, 2005). Back To Top educational Technology and Data Driven Decision MakingThe effectiveness of educational technology on student learning depends not only on what outcomes are targeted and how the technology is integrated into instruction, but also on how teachers assess student performance in classrooms and adjust instruction accordingly. Technology offers teachers a broad range of tools to collect and analyze data, and richer sets of student data to guide instructional decisions.NCLB has prompted educators to think much more consistently about educational decision-making and the use of data to inform their decisions about everything from resource allocation to instructional practice. Schools are now expected to monitor their efforts to enable all students to achieve, and administrators and teachers are now expected to be prepared to use data to understand wh ere students are academically and to establish targeted, responsive, and flexible ways to improve this academic standing (Mitchell, Lee, Herman, 2000, p. 2). However, despite encouragement at the policy level, at that place is growing consensus that schools are not adequately prepared for the task of routinely thinking critically about the relationships between instructional practices and student outcomes (Confrey Makar, 2005 Olsen, 2003 Hammerman Rubin, 2002 Herman Gribbons, 2001 Kearns Harvey, 2000).Recent research conducted by EDCs Center for Children and Technology has found that educators working(a) at different levels of a school system have distinctive intuitive approaches to the process, despite the absence of systematic training in a particular approach to data-driven decision-making. For example, school administrators use high-stakes test data to allocate resources and plan original development and other kinds of targeted intervention activities by identifying gene ral patterns of performance, class-, grade-, and school-wide strengths and weaknesses.Teachers tend to use multiple sources of datahomework assignments, in-class tests, classroom performances, and experiential informationto inform their thinking about their students strengths and weaknesses (Brunner, Fasca, Heinze, Honey, Light, Mandinach Wexler, 2005 Light, Wexler Heinze, 2004 Honey, Brunner, Light, Kim, McDermott, Heinze, Bereiter Mandinach, 2002).While drawing on change sources of data to form opinions about students competencies is not new behavior for teachers, significant research (Mandinach, Honey, Light, Heinze, Rivas, 2005 Confrey Makar, 2002, 2005 Hammerman, Rubin, 2002, 2003) suggests that teachers examine factors that apply to individual patterns of behavior and think case-by-case, rather than identify patterns in data at different levels of aggregation, from student-to-student, class-to-class, and year-to-year, and systematically analyze the relationship between student performance and instructional strategies and materials.Data literacythe ability of instructional leading and teachers to work individually and collectively to examine outcomes-based achievement data, shaping assessment measures of student performance, and students work products, and to develop strategies for improvement based on these datais now widely recognized as a critical strategy in the academic performance of schools (Fullan, 1999 Haycock, 2001 Johnson, 1996 Love, 2004 Schmoker, 1999 Zalles, 2005).A key concept of data literacy is generating only the data that are needed and making full use of whats collected. The National Research Council (1996) notes that, far too often, more educational data are collected and analyzed than are used to make decisions or take action (p. 90). Those resources come important to educators only when they are transformed into information, and ultimately into usable or unjust knowledge (Mandinach Honey, 2005).Taken as a whole, the eme rging research in this area suggests that what is needed is a comprehensive and purposeful approach to the use of data that not only informs the practices of individual teachers, but is back up as an essential and strategic part of school-wide improvement strategies. New professional development programs are now training teachers and school leaders in how to make use of data in systematic and stringent ways to continuously improve student performance.For example, TERC has created Using Data, a professional development model that introduces teachers to a process through which they learn to frame questions, collect data, formulate hypotheses, draw conclusions, take action, and monitor results (Love, 2002). forward studies have indicated that this model has had an impact on teacher classroom behavior and on their approach to data analysis and interpretation (Love, 2004), and has also improved student learning as indicated by state and formative assessments (Zuman, 2005).Results from external military ratings of the intervention conducted in various locations have shown substantial gains in student performance on state accountability measures in the areas of math and language arts. Technology has a vital role to play in enabling data-driven decision-making. Web-based test data reporting systems provide an interface to the state and city testing results by organizing raw data into information that is aligned with state standards and mobile computing devices, such as handhelds, provide teachers with a platform to administer and analyze the data of classroom-based assessments.For example, according to the 2004 Quality Education Data, 55 percent of the nations public school districts used PDAs or handheld PCs in the 2002-2003 school year with an excess 8 percent expected to purchase them for use during the 2003-2004 school year. The numbers released by Wireless Generation, a for-profit company that designs educational assessment applications for handheld devices, suggests an even greater increase. During the fall of 2005, Wireless estimates that roughly 80,000 teachers, working in 48 states will be using their software to collect and analyze data for up to one million students in pre-K through sixth grade.The company currently has contracts with ten Reading runner states, as well as with some of the largest school districts in the nation, including the New York City Board of Education and Chicago Public Schools. While using PDAs to administer assessments and view data are becoming progressively popular, few studies have examined the effect they have on teacher practice and student achievement (Brunner Honey, 2001 Hupert, Martin, Heinze, Kanaya, Perez, 2004 sharp-worded Risko, 2003 Sharp, 2004).Studies that have begun to examine this trend suggest that that these tools assist teachers in thinking more substantively about students progress. As a whole, the research indicates that the single most powerful affordance of the technology is i ts ability to support teachers in using assessments to acquire information about students thinking and learning, and to use the understanding gained to further shape their instructional practice (Brunner Honey, 2001 Hupert et al. , 2004 Sharp Risko, 2003).Such a strategy places assessment squarely in the center of the classroom where it can potentially count the most. Back To Top The Complex Nature of Change Another factor influencing the impact of technology on student achievement is that changes in classroom technologies correlate to changes in other educational factors as well. Originally the determination of student achievement was based on traditional methods of social scientific investigation it asked whether there was a specific, causal relationship between one thingtechnologyand some otherstudent achievement.Because schools are complex social environments, however, it is impossible to change just one thing at a time (Glennan Melmed, 1996 Hawkins, Panush, Spielvogel, 199 6 Newman, 1990). If a new technology is introduced into a classroom, other things also change. For example, teachers perceptions of their students capabilities can shift dramatically when technology is integrated into the classroom (Honey, Chang, Light, Moeller, in press). Also, teachers frequently find themselves acting more as coaches and less as lecturers (Henriquez Riconscente, 1998).Another example is that use of technology tends to foster collaboration among students, which in change form may have a positive effect on student achievement (Tinzmann, 1998). Because the technology becomes part of a complex network of changes, its impact cannot be reduced to a simple cause-and-effect model that would provide a definitive answer to how it has improved student achievement. Back To Top IMPLICATIONS These findings have implications for every district and school using or formulation to use technology.Research on successfully developing, evaluating, studying, and implementing a wide range of technology-based educational programs suggests that the tax of technology for students will not be realized unless attention is remunerative to several alpha considerations that support the effective use of technology (ISTE, 2002 Byrom Bingham, 2001 Chang, Henriquez, Honey, Light, Moeller, Ross, 1998 Cradler, 1997 Frederiksen White, 1997 Hawkins, Panush, Spielvogel, 1996 Honey, McMillan, Tsikalas, Light, 1996 National Foundation for the Improvement of Education, 1996 Pea Gomez, 1992).These considerations are Specific educational goals and a vision of learning through technology current professional development Structural changes in the school day A robust expert infrastructure and technical support Ongoing evaluation Back To Top 1. Educational Goals and a Vision of Learning by dint of Technology Before technology is purchased or teachers participate in their runner professional development session, the educational goals for students should be determined. What d o students need to learn, and how can technology promote those learning goals?To answer these questions, the school can convene a technology planning team comprising administrators, teachers, other instructional staff, technology coordinators, students, parents, and representatives of the residential district. This team first develops a clear set of goals, expectations, and criteria for student learning based on national and state standards, the student population, and community concerns. Next, it determines the types of technology that will best support efforts to gratify those goals. The viewpoints of parents and community members are helpful in presenting a broader perspective of skills that students need to succeed by and by school.In fact, communitywide involvement in determining the schools technology goals benefits the entire educational process (Byrom Bingham, 2001 Panel on Educational Technology, 1997). Rather than using technology for technologys sake, the planning tea m ensures that particular educational objectives are achieved more efficiently, in more depth, or with more flexibleness through technology. Cuban (cited in Trotter, 1998) states, The obligation is for educators, practitioners, and educational policymakers to think about what they are after.Only with clear goals can educators be intelligent about how much they want to spend for what purpose and under what conditions. If there is a clear understanding of the purpose of and type of technology used, evaluating the impact is easier and more valuable. According to Hawkins, Panush, and Spielvogel (1996) and Byrom Bingham (2001), school districts that successfully integrate technology show a clear and meaningful connection between technology and larger educational goals. Next, the planning team develops a vision of how technology can improve teaching and learning.Without a vision, lasting school improvement is almost impossible (Byrom Bingham, 2001). Team members come to consensus in a nswer the question How Will You Use Technology to Support Your Vision of Learning? Essential to this vision is an emphasis on meaningful, engaged learning with technology, in which students are actively involved in the learning process. Educational technology is less effective when the learning objectives are unclear and the focus of the technology use is sonant (Schacter, 1999).The schools vision of learning through technology also emphasizes the importance of all students having equitable access and use of technologyfemales, special-needs students, minority students, disadvantaged students, students at risk of educational failure, rural and inner-city students. All students need opportunities to use technology in meaningful, authentic tasks that develop higher-order thinking skills. (For further information, refer to the Critical Issue Ensuring honorable Use of Education Technology. ) Back To Top 2. Professional move upment After the educational goals and vision of learning thr ough technology have been determined, it is important to provide professional development to teachers to help them choose the most set aside technologies and instructional strategies to meet these goals. Students cannot be expected to benefit from technology if their teachers are neither beaten(prenominal) nor comfortable with it. Teachers need to be supported in their efforts to use technology.The primary reason teachers do not use technology in their classrooms is a lack of experience with the technology (Wenglinsky, 1998 Rosen Weil, 1995). Wenglinsky (cited in Archer, 1998) found that teachers who had received professional development with computers during the last five years were more likely to use computers in effective ways than those who had not participated in such training. Yet teacher induction programs too often focus narrowly on helping new teachers survive the initial year (Fulton, Yoon, Lee, 2005).Ongoing professional development is necessary to help teachers learn not only how to use new technology but also how to provide meaningful instruction and activities using technology in the classroom (Ringstaff Kelley, 2002). Teachers must be offered training in using computers, notes Sulla (1999), but their training must go beyond that to the instructional strategies needed to infuse technological skills into the learning process. In successful projects, teachers are provided with ongoing professional development on practical applications of technology.Teachers cannot be expected to learn how to use educational technology in their teaching after a one-time workshop. Teachers need in-depth, sustained assistance not only in the use of the technology but in their efforts to integrate technology into the curriculum (Kanaya Light, 2005). Teachers also need embedded opportunities for professional learning and collaborating with colleagues in order to overcome the barrier of time and teachers daily schedules (The National Council of mental faculty br eak outment, 2001 Kanaya Light, 2005).Skills training becomes peripheral to alternative forms of ongoing support that addresses a range of issues, including teachers changing practices and curricula, new technologies and other new resources, and changing assessment practices. This time spent ensuring that teachers are using technology to enrich their students learning experiences is an important piece in determining the value of technology to their students. According to Soloway (cited in Archer, 1998), teachers always have been the key to determining the impact of innovations, and this situation also is true of technology.Besides pedagogical support to help students use technology to reach learning goals, teachers also need time to become familiar with available products, software, and online resources. They also need time to discuss technology use with other teachers. Transforming schools into 21st century learning communities means recognizing that teachers must become members o f a growing network of shared expertise (Fulton, Yoon, Lee, 2005). Professional collaboration includes communicating with educators in similar situations and others who have experience with technology (Panel on Educational Technology, 1997).This activity can be done in face-to-face meetings or by using technology such as e-mail or videoconferencing. The effects of introducing technology on teacher professionalization include increased collaboration among teachers within a school and increased interaction with external collaborators and resources. Back To Top 3. Structural Changes in the School Day It is important to build time into the daily schedule allowing teachers time to collaborate and to work with their students.Engaged learning through technology is best supported by changes in the structure of the school day, including longer class periods and more allowance for team teaching and interdisciplinary work. For example, when students are working on long-term research projects for which they are making use of online resources (such as artwork, scientific data sets, or historical documents), they may need more than a daily 30- or 40-minute period to find, explore, and synthesize these materials for their research.As schools continue to acquire more technology for student use and as teachers are able to find more ways to incorporate technology into their instruction, the problem will no longer be not becoming computers but not enough time (Becker, 1994). Back To Top 4. Technical Infrastructure and Support Increased use of technology in the school requires a robust technical infrastructure and adequate technical support. If teachers are working with a technology infrastructure that realistically cannot support the work they are trying to do, they will become frustrated.School districts have a responsibility to create not only nominal access to computers and electronic networks but access that is robust enough to support the kinds of use that can make a real difference in the classroom. Teachers also must have access to on-site technical support force-out who are responsible for troubleshooting and assistance after the technology and lessons are in place. Back To Top 5. Evaluation Ongoing evaluation of technology applications and student achievement, based on the overall educational goals that were decided on, helps to ensure that he technology is appropriate, adaptable, and useful. Such evaluation also facilitates change if learning goals are not cosmos met. Administrators can acknowledge and recognize incremental improvements in student outcomes as well as changes in teachers curricula and practices. piecemeal progress, rather than sudden transformation, is more likely to result in long-term change. Baker (1999) emphasizes that besides being a means to collect, interpret, and document findings, evaluation is a planning tool that should be considered at the begin of any technology innovation.She adds that the overall focus of eval uation is student learning. Heinecke, Blasi, Milman, and Washington (1999) note that multiple denary and qualitative evaluation measures may be necessary to document student learning outcomes. To ensure that evaluation procedures are adequately designed and carried out, administrators and teachers may wish to consult evaluation sources such as An Educators come about to Evaluating the Use of Technology in Schools and Classrooms. All of these issues are important in using technology to improve student achievement.Educational technology is not, and never will be, transformative on its own. But when decisions are made strategically with these factors in mind, technology can play a critical role in creating new dower and opportunities for learning that can be rich and exciting. At its best, technology can facilitate deep exploration and integration of information, high-level thinking, and profound engagement by allowing students to design, explore, experiment, access information, and model complex phenomena, note Goldman, Cole, and Syer (1999).These new circumstances and opportunitiesnot the technology on its owncan have a direct and meaningful impact on student achievement. When educators use the accumulating knowledge regarding the circumstances under which technology supports the broad comment of student achievement, they will be able to make informed choices about what technologies will best meet the particular needs of specific schools or districts. They also will be able to ensure that teachers, parents, students, and community members nderstand what role technology is playing in a school or district and how its impact is being evaluated. Finally, they will be able to justify the investments made in technology. To help states, school districts, and school personnel plan ways to measure the impact that technology is having on classroom practices and academic achievement, Dirr (2004) in league with the Appalachian Technology in Education Consortium and th e Mid-Atlantic Regional Technology in Education Consortium, identified the pastime evaluation strategiesEncourage SEAs and LEAs to set aside 10 percent to 15 percent of funds to evaluate their technology grants. Provide a model comprehensive plan for states and districts to consider as they design their own evaluation plans to include a statement of purpose, identifies clear objectives, demonstrates valid approaches to research design, and specifies appropriate time frames for analysis and reporting. Support efforts to develop shared instruments and sets of common data elements.Develop a database of best practices for technology programs and applications that have shown to support student achievement in scientifically based research studies. Develop a list of highly qualified researchers and evaluators from whom SEAs and LEAs can obtain guidance. Explore the development of validated instruments that could be shared across states. Back To Top ACTION OPTIONS Administrators, the techn ology planning team, and teachers can take the following steps to improve student achievement through technology.Administrators and the Planning Team (comprising teacher representatives, technology coordinator, students, parents, and fire community members) Review a range of national and state educational standards for student learning (such as those listed in Developing Educational Standards). Seek out content standards that articulate the goals for students to achieve. watch out key aspects of national and state student learning standards for the school or district to focus on as educational goals. Involve teachers in this process to ensure that their expertise and opinions are considered.Charge cross-disciplinary groups of teachers and technology coordinators with finding new ways that technology can help students to achieve those learning goals. Collaborate to create a technology plan for the school. (Refer to the Critical Issue Developing a School or District Technology Plan. ) implant one-, three-, and five-year goals for improving student learning through technology. Identify specific curricula, practices, skills, attitudes, and policies that can be enhanced through the use of technology to foster significant improvement in the character and quality of student learning. For example, if the district is interested in improving students writing performance, word processing with an emphasis on revision and redact should become a salient part of the curriculum across disciplines. ) Identify classrooms in the district where students are already producing exemplary work using technology or visit virtual classrooms by aftermath CD-ROMs (such as the Captured Wisdom CD-ROM Library produced by the North Central Regional Technology in Education Consortium), videotapes of echnology use in schools (such as the Learning With Technology videotapes), or Internet sites relating to technology integration in content areas (such as lessons using the Amazing Picture Mac hine and the Handbook of Engaged Learning Projects). Build a database or other resource that allows the school to share these best practices with school staff and the community in general. Be aware of state technology plans, district technology plans, and related policies. interpret that the school is in compliance.Become familiar with factors that affect the effective use of technology for teaching and learning. Learn about research studies conducted in real school settings that describe how technology use is influenced by teachers experience with technology, adequacy of release time, professional development opportunities, and length of class periods. keep in line that teachers are aware of the value of technology for all students, especially those considered at risk of educational failure. (Refer to the Critical Issue Using Technology to Enhance Engaged Learning for At-Risk Students. )Ensure that all students have equitable access to effective uses of technology. Develop strate gies for addressing access inequities, strategies for addressing type-of-use inequities, and strategies for addressing curriculum inequities. Provide ongoing, extensive, and research-based professional development opportunities and technical support to help teachers use technology to develop meaningful instructional strategies for students. (Refer to the Critical Issues Realizing New Learning for All Students Through Professional instruction and Finding Time for Professional Development. ) Ensure that new, research-based approaches to professional development are consistent with the National Staff Development Council (NSDC) standards for staff development. Provide incentives, structures, and time for teachers to participate in highly effective staff development (such as study groups and action research) to help them integrate technology into their teaching and learning. Find ways to make appropriate structural changes in the school day and class scheduling to support engaged learni ng with technology. Consider block scheduling as a possibility.Educate parents about new assessment methods that enable teachers and administrators to make judgments about the effectiveness of technology in supporting student learning. Use appropriate evaluation procedures and tools to determine the impact of technology use on student achievement based on the learning goals that were set. Consult evaluation sources such as An Educators Guide to Evaluating the Use of Technology in Schools and Classrooms. Share findings with the community. Teachers Determine the purpose of using technology in the classroom, as determined by the specified educational goals.Is it used to support inquiry, enhance communication, extend access to resources, guide students to analyze and visualize data, enable product development, or encourage expression of ideas? After the purpose is determined, select the appropriate technology and develop the curricula. Create a plan for evaluating students work and asse ssing the impact of the technology. Coordinate technology implementation efforts with core learning goals, such as improving students writing skills, reading comprehension, mathematical reasoning, and problem-solving skills.Collaborate with colleagues to design curricula that involve students in meaningful learning activities in which technology is used for research, data analysis, synthesis, and communication. Promote the use of learning circles, which offer opportunities for students to exchange ideas with other students, teachers, and professionals across the world. Encourage students to broaden their horizons with technology by means of global connections, electronic visualization, electronic field trips, and online research and publishing.Ensure that students have equitable access to various technologies (such as presentation software, video production, Web page production, word processing, modeling software, and desktop publishing software) to produce projects that demonstrate what they have learned in particular areas of the curriculum. Encourage students to collaborate on projects and to use peer assessment to critique each others work. In addition to standardized tests, use alternative assessment strategies that are based on students performance of authentic tasks.One strategy is to help students develop electronic portfolios of their work to be used for assessment purposes. Ensure that technology-rich student products can be evaluated directly in relation to the goals for student outcomes, rather than according to students level of skill with the technology. Create opportunities for students to share their work publiclythrough performances, public service, open houses, science fairs, and videos. Use these occasions to inform parents and community members of the kinds of learning outcomes the school is providing for students.Learn how various technologies are used today in the world of work, and help students see the value of technology applications. (Pertinent online information can be found in the 1998-99 occupational Outlook Handbook and the Bureau of Labor Statistics Career Information. ) Participate in professional development activities to gain experience with various types of educational technology and learn how to integrate this technology into the curriculum. Use technology (such as an e-mail list) to connect with other teachers outside the school or district and compare successful strategies for teaching with technology.