Use Of Computers In Instruction Research Articles

Perceived attributes of instructional computer use in early childhood education: A scale adaptation and validation study

Based on Rogers’ (2003) Diffusion of Innovations Theory, this study aims to describe the construction and validation of the “Perceived Attributes of Computer Use” (PACU) scale to measure pre-service early childhood teachers’ (N=581) tendency towards computer use for instructional purposes in early childhood settings. The development and validation process of PACU scale, reworking on the structure and item numbers of the original English scale ‘Perceived Characteristics of Innovating’ (Moore & Benbasat, 1991), was accomplished in four steps, namely (1) translation and adaptation procedure, (2) Q-Sort method, (3) exploratory factor analysis, and (4) confirmatory factor analysis. A five-factor scale with 23 items was revealed and a good fit between the data set and the proposed Turkish version scale was confirmed (NNFI=.92, CFI=.93, RMSEA=.97, χ2/df=2.58). Moreover, the reliability value of the scale was found .90. In the end, the overall measures and evidence validated a ready-to-use scale for prospective early childhood teachers.

Use Of Multimedia In Teaching English As A Foreign/Second Language

The use of computers in instruction has evoked mixed reactions and they range from warm praise to a complete rejection. The new machine is considered to be an almost-anything machine and an innovation of more than ordinary magnitude a one-in-several centuries innovation. Others consider it to be a new tyranny, say that it is incompatible with current theories of learning and speak vehemently against the use of computers. While praise sometimes stems from an uncritical enthusiasm for electronic gadgets, prejudices arise out of ignorance about the wealth of possibilities offered by the new medium. An attempt is made in this paper and the subsequent presentation to show the possible uses, the different ways and means of using them and the disadvantages of incorporating computers in teaching English as a Foreign/Second Language.

The Relationship between Teacher's Technology Integration Ability and Usage

Despite a steady supply of equipment and continuous training, teachers' use of computers for instruction seems to be limited. Whether the problem is due to teachers' ability or usage of computers for instruction is not well understood. In order to better understand the role of ability and usage in technology integration, teachers' proficiency of technology integration was evaluated by separate ability and usage scales. Based on performance indicators from the International Society for Technology in Education (ISTE), two scales were developed that measured teachers' self-perceived ability and their frequency of usage of technology integration. The survey was administered to grade 1–9 teachers in Taiwan ( n = 3729). The results showed a positive correlation between teachers' technology integration ability and usage (Pearson r = .56). Further examination using Structural Equation Modeling (SEM) confirmed the structure of the scales and revealed a higher correlation between the two scales after adjusting for measurement error.

Faculty Instructional Computer Use Model

The purpose of this research study was to explore predictor variables for faculty instructional computer use. Analysis of data collected from 198 college of education (COE) faculty members indicated that instructional computer use and mainstream computer use form two strong and distinct variables. This study also proposes a faculty instructional computer use model that shows the relationships between these two types of computer uses and suggests different prediction paths for these two variables. While mainstream computer use was predicted significantly by personal computer access, collegial support, and mainstream computer expertise, instructional computer expertise and collegial support affect faculty attitudes toward instructional computer use. It is an important finding that collegial support is a motivation factor both to increase mainstream computer use and to change faculty attitudes positively toward instructional computer use. Finally, instructional computer skills, along with positive faculty attitudes toward computers as instructional tools, increase the likelihood of instructional computer use. The faculty instructional computer use model provides some key elements regarding how COE faculty use of instructional computer applications and software may be improved. Results from this study clearly suggest that faculty development programs should be focused upon instructional computer use and not on developing mainstream computer skills.

What is appropriate mathematics education for four-year-olds?

This study explored pre-kindergarten teachers' beliefs about the appropriateness of early mathematics education. Thirty pre-kindergarten teachers of four-year-olds, half working with low-SES children at publicly funded pre-kindergartens and the other half with middle-SES children at private pre-kindergartens, were interviewed concerning written vignettes describing two fictitious pre-kindergarten teachers' contrasting pedagogies concerning key issues in teaching mathematics to young children. The low-SES publicly funded pre-kindergarten teachers tended to support a strong focus on goal-based mathematics teaching at pre-kindergarten and at home to get children ready for kindergarten. The middle-SES private pre-kindergarten teachers tended to endorse flexible mathematics education relying on a child-centered curriculum and child-initiated learning and to oppose the instructional use of computers. Both groups, however, were similarly likely to mention that with increased academic demands, pre-kindergarten teachers needed to provide mathematics education, especially in simple arithmetic, albeit in a fun manner, without triggering stress or anxiety. These findings have significant implications for professional development.

Using Rogers’ Theory to Interpret Instructional Computer Use by COE Faculty

The purpose of this research study was to develop a theory-based methodology for exploring instructional computer use by faculty members in one College of Education (COE) and implementing this methodology at an Anatolian university in Turkey. Rogers’ (2003) Diffusion of Innovations theory was used as the theoretical framework in the process of instrument development, data collection, and in the interpretation of the results. The faculty members in the study reported low levels of use and expertise in instructional computer technologies. Variables significantly correlated with faculty members’ level of computer use were computer expertise, computer access, barriers to computer access, attitude toward computer use, support for computer use, and adopter categories based on innovativeness. The importance of administrative support and the need for faculty development were two major findings from this study. The results from the qualitative data provided information on addressing barriers to faculty computer use and confirmed the characteristics of Rogers’ adopter categories. Findings interpreted through Roger’s theory suggest that an action plan should take advantage of faculty members’ positive computer attitudes and collegial communication to help them move to the higher levels of use and expertise in instructional technologies. Methodology used in this study provides a model for other colleges of education worldwide to obtain information about the needs of their faculty members.

Factors affecting gender differences in attitudes towards computers among students

The use of computers in instruction is prevalent and will be increasingly so in the coming years. Research has found computer use to be associated with computer attitudes. Computer attitudes refer to people’s reactions to computers and are influential in shaping current and future usage of the computer. Research has found these reactions to include liking computers. Among the concerns in the use of computers is the issue of gender differences that is reflected in the ways males and females regard computers. Many of the studies in computer attitudes between male and female students suggest significant differences. The aim of this paper is to discuss some of the factors that contribute to gender differences in the attitudes towards computers among students.

New Evidence on Classroom Computers and Pupil Learning

How technology affects learning has been at the centre of recent debates over educational inputs. In 1994, the Israeli State Lottery sponsored the installation of computers in many elementary and middle schools. This programme provides an opportunity to estimate the impact of computerisation on both the instructional use of computers and pupil achievement. Results from a survey of Israeli school‐teachers show that the influx of new computers increased teachers’ use of computer‐aided instruction (CAI). Although many of the estimates are imprecise, CAI does not appear to have had educational benefits that translated into higher test scores. That small miracle can be replicated in every school, rich and poor, across America ... Every child in American deserves a chance to participate in the information revolution. That small miracle can be replicated in every school, rich and poor, across America ... Every child in American deserves a chance to participate in the information revolution. President Clinton, at the East Somerville Community School, 5 June 1998. President Clinton, at the East Somerville Community School, 5 June 1998. We could do so much to make education available 24 hours a day, seven days a week, that people could literally have a whole different attitude toward learning. We could do so much to make education available 24 hours a day, seven days a week, that people could literally have a whole different attitude toward learning. Newt Gingrich talking to the Republican National Committee, quoted in Oppenheimer (1997). Newt Gingrich talking to the Republican National Committee, quoted in Oppenheimer (1997). Netanyahu explained to a group of politicians and computer professionals how he wanted to provide a quarter‐million of his country's toddlers with interconnected computers. Netanyahu explained to a group of politicians and computer professionals how he wanted to provide a quarter‐million of his country's toddlers with interconnected computers. Recounted by MIT computer scientist Michael Dertouzos, September 1998. Recounted by MIT computer scientist Michael Dertouzos, September 1998.

Information Technology Use and Cognitive Outcomes in the First Year of College

Introduction It appears clear that computers or technology have the potential to fundamentally alter the face of teaching and learning in American postsecondary education (Green, 1996; Kozma & Johnston, 1991; Kuh & Vesper, 1999; Pascarella & Terenzini, 1998; Upcraft, Terenzini, & Kruger, 1999; West, 1996). The promise is, indeed, great. As suggested by Kuh and Vesper: Used appropriately and in concert with powerful pedagogical approaches, technology is supposed to enhance student learning productivity. It does this by enriching synchronous classroom activities and providing students with engaging self-paced and asynchronous learning opportunities that enable students to learn more than they would otherwise at costs ultimately equal to or below that of traditional classroom based instruction. (1999, p. 1) Based on recent dramatic increases in instructional computer use in American colleges and universities, it would appear that the promise of technology has considerable amount of logical appeal. For example, recent report issued by The Institute for Higher Education Policy (1999) indicated the extent to which computer use in postsecondary instruction has increased in just the last few years. Based on data from the 1998 National Survey of Information Technology in Higher Education, the Report indicated that in 1994 about 8% of postsecondary classes used e-mail. This increased to 44% by 1998. Similarly, the percentage of classes reporting that they used internet resources increased from 15% in 1996 to 30% in 1998. By 1998 it was estimated that 46% of all institutions had mandatory student technology (computer use) fee. Paralleling documented increases in the classroom use of computers is evidence suggesting substantial increases over time in student familiarity with computers. In analyses of several, large, multi-institutional cohorts of undergraduates, Kuh, Connolly, and Vesper (1998) report that in the mid-1980s about 32% of college seniors reported making substantial progress in becoming familiar with computers during college. By the late 1990s this jumped to nearly 60%. Of course, access to and use of computers and technology is not uniform across institutional types or among different kinds of students. Both access and use appear to be positively linked with wealth and prestige at the institutional level, and with socioeconomic status and with being Caucasian or Asian American at the individual student level (Gladieux & Swail, 1999). Despite institutional or socioeconomic inequities in computer access or use, it is clear that technology is likely to have massive impact on how colleges and universities conduct their future business, both in and outside the classroom. Both Gladieux and Swail (1999) and Green (1997) have argued that high-school graduates bound for postsecondary institutions are increasingly part of an information age in which success in competitive world economy is seen as inextricably dependent on computers and technology. Indeed Green (1997, p. 9), as cited by Gladieux and Swail (1999) has suggested that colleges and universities engage in a kind of educational malpractice if they fail to incorporate technological training in the instructional process. Others, such as Ehrmann (1995), have suggested that college or university can no longer ignore the potential instructional use of technology and still maintain institutional viability. Although there is little doubt that computers and technology are, and will become, increasingly powerful influences on how instruction and teaching are delivered in American colleges and universities, there is still some question as to their unique impact on students' overall cognitive or intellectual growth during college (Ehrmann, 1995; Kuh & Vesper, 1999). As argued by Green, We need to be honest about the gap between aspirations and performance; . …

Influencing local computer technology policy via a K-12/University Collaboration

This article discusses a district-wide study conducted in collaboration with local officials and researchers from a nearby university. The goals of the study were collaboratively derived by university and representatives of K-12 education (i.e. from kindergarten to completing compulsory education) and included: (1) determining how teachers in the district were using computers in instruction, (2) determining factors that influenced these uses and (3) developing a local policy agenda from the results of the study. Survey methodology was implemented using Dillman's (1978) Total Design Method and a 92% response rate was obtained. The study suggests that teachers are primarily using computers for drill and practice or as rewards for completing work, that teachers lack confidence in meeting many of the state technology standards and that teachers are not satisfied with the support they receive. The study also suggests that systemic teacher preparation efforts focused on developing teachers' instructional computer efficacy with multiple applications, coupled with efforts to improve districtwide support, may enable this district to facilitate effective instructional computer use. Local consequences and the broader significance of the study are discussed.

An Examination of the Relationships Between Student Conduct and the Number of Computers per Student in Florida Schools

The relationship between the numbers of computers in schools and student conduct was investigated using school-level data reported to the Department of Education by all Florida school districts for the 1993–1994, 1994–1995, and 1995–1996 school years. Computer use was defined as the total number of computers used for instruction, and student conduct was defined as the number of conduct violations and number of disciplinary actions taken. In addition, school attendance and staff turnover rates were analyzed. Results from the research among Florida schools reporting consistent increased use of computers in instruction revealed: (a) Elementary schools witnessed fewer conduct violations (effect sizes ranged from −0.67 to 0.04) and disciplinary actions (effect sizes ranged from −0.13 to −0.10), (b) middle/junior high schools experienced fewer conduct violations (effect sizes ranged from −0.35 to −0.14) and disciplinary actions (−0.21 to −0.18), and (c) high schools experienced fewer crimes against property (effect size −0.26) and fewer total numbers of conduct violations (effect size −0.23) were witnessed.

An in service model for enhancing faculty computer self‐efficacy

AbstractComputer self‐efficacy is a significant factor that differentiates adopters and non‐adopters of computer technology among university faculty. Faculty who judge themselves unable to use computers effectively and confidently will not adopt them in the classroom even when the hardware and software are available to them. In this case study, a program was designed and implemented to enhance faculty computer self‐efficacy. Using Bandura's four sources of efficacy information as a guide, the program consisted of showcases, seminars, workshops and funding. The in service program had a positive impact on both faculty and administration. The in service program was a cost‐effective way for administrators to support faculty in the use of computer technology in instruction. The faculty gained confidence and enhanced their computer self‐ efficacy resulting in a community of faculty with shared interests in using computers in the classroom. Components of the program, its evaluation and recommendations for implementation are discussed.Higher education cannot realize the potential impact of computer technology until faculty are comfortable using technology for instructional activities. Current computer hardware and related information technologies are now faster, possess greater memory, and are available at lower costs than their predecessors. Faculty in higher education can and should make imaginative use of these technologies to enrich the learning environment and support student learning. Many faculty are sufficiently comfortable with the technology to use it in the classroom; however, many others are not. Indeed, the pace of the information revolution has left many faculty members bewildered and unsure of how or when they can utilize this ever‐changing phenomenon. Academic administrators must, therefore, develop mechanisms to help faculty become comfortable with the use of computers in their instructional activities (Olivier and Shapiro, 1993).The purpose of this article is to describe an in service program designed to improve instructional computer use by faculty at a university campus. The authors found that computer self‐efficacy is related to adoption among the faculty on this campus as it is at others (Faseyitan and Hirschbuhl, 1992). Therefore, the program objective was to enhance the computer self‐efficacy of the faculty and their desire to integrate computers into instruction.First, we establish how improved self‐efficacy is linked to computer usage in instruction, establishing the framework for the in service program. Next, a detailed description of the program is presented. Finally, we present an evaluation and an assessment of the impact of the in service program on the self‐efficacy of faculty at our campus.

Electronic Performance Support Systems in Elementary and Secondary Schools

SUMMARY Until recently, most of the major developments and applications of electronic performance support systems (EPSS) have taken place within industrial and commercial settings. In general, academic organizations have been slow to take advantage of this relatively new approach to the instructional use of computers. However, this situation is changing rapidly. This paper therefore discusses some of the ways in which electronic performance support is now influencing learning strategies within academic settings at the elementary and secondary levels.

The Computer Attitude Scale: Assessing Changes in Teachers' Attitudes toward Computers

Teachers' attitudes toward computers affect their instructional use of computers and likelihood of profiting from training. The reliability, factorial validity, and fit to a unidimensional model of the Computer Attitude Scale (CAS) was investigated. Pretest and posttest results were collected from 265 teachers who participated in training on classroom applications of computer hardware and software. Four factors were identified: computer anxiety, efficiency, liking, and instructional usefulness. Scale reliability was .94 with post-test subscale reliabilities ranging from .70 to .90. Five items did not fit the multidimensional model. The scale is useful as a computer attitude measure but some item revisions might be considered.

Computer use in psychology instruction: A survey of individual and institutional characteristics

This paper reports the results of a national survey of psychology faculty regarding their instructional use of computers. The survey was designed to answer three general questions: (1) In what ways and to what extent are psychologists using computers in their instruction? (2) What individual characteristics differentiate among levels of users? (3) What institutional characteristics appear to promote or inhibit the instructional use of computers? The results reveal that, although there appears to be extensive use of computers to support instruction, there are both institutional and individual characteristics that differentiate among levels and types of use. Several factors are identified that could lead to increased instructional use of computers, but their impact will largely be determined by the characteristics of the individual and the institution.

Instructional Use of Computers for Entry-level Physical Therapy Education

Instructional Use of Computers for Entry-level Physical Therapy Education

THE EFFECTIVENESS OF COMPUTER - ASSISTED INSTRUCTION IN A HORTICULTURE PLANT IDENTIFICATION CLASS

Plant identification is a prerequisite to many, if not all, horticulturally related classes. It typically has been taught through the use of live specimens, slides, and text books. Recently, computers have entered the picture as a possible tool to teach plant identification. Increased availability and sophistication of computer systems in the college setting have led to the increased use of computers in instruction. The objective of this study was to determine if there was a relationship between a student's learning style and academic achievement following computer assisted instruction. Undergraduate students enrolled in a plant identification class were involved in the study. Students learned plant identification either by: 1) viewing live specimens, 2) utilizing a computer instruction database system, or 3) combining live specimens with computer instruction. The students' cognitive knowledge was evaluated with pre and post tests. Learning style and attitude toward computer assisted instruction were also obtained.

Computers, city and suburb: A study of New York City and Westchester County public schools

The purpose of this study is to provide a descriptive analysis of the use of computers for instruction in the public schools of a large, urban area, namely New York City; and to compare this with the public schools of a suburban area, namely Westchester County. Particular emphasis has been placed on the availability of hardware, the nature of the software used for instruction, and the perceived progress or problems encountered in integrating computers into the curriculum.

Meta-Analysis of Achievement Effects of Microcomputer Applications in Elementary Schools

This meta-analysis was undertaken to clarify existing knowledge of computer use in instruction and to provide information concerning implementation factors that would be helpful to educational administrators. A meta-analysis technique was used to synthesize the results of 40 independent studies. Variables analyzed included characteristics of students, teachers, physical settings, and instructional formats.

Instructional use of computers in the junior college

AbstractThe administration and faculty of two‐year colleges must recognize the important contribution that the computer can make now—and in the future—to the education of our students.