The New Generation of Computer Literacy

A tremendous mismatch is developing between two of the most critical components of any computer literacy course: the textbooks and the students. We are encountering a new generation of students (literally as well as figuratively!) who are much better acquainted with computer usage than their earlier counterparts. Yet many textbooks with increasing emphasis in those same computer tools continue to appear. There are signs of a coming change in that a few authors and publishers apparently are becoming aware of the need for innovations in texts for non-scientists. These textbooks open the door for a new orientation to principles in the teaching of computer literacy

Computer Literacy Skills of Net Generation Learners

Younger learners are widely considered to be technologically savvy and computer literate because of their lifelong exposure to ubiquitous technology. Educators often rely on that assumption to justify changes to institutional curricula, technology initiatives, new classroom strategies, and calls for educators to meet the educational demands of the younger generation. This study examines the computer literacy skills of Net Generation Learners (NGLs). This dissertation is composed of a systematic literature review, an examination of learner computer literacy skills prior to completing a college level course, and an investigation of the effects of different types of instruction on learner computer literacy skills. In the systematic literature review, identified studies focused primarily on learner familiarity with emerging technologies and relied heavily on self-reported data. Few studies directly measured learner computer literacy skills, and none compared the skills of NGLs and non-NGLs. A causal-comparative examination of learner computer literacy skills prior to a college level computer literacy course found that both NGLs and non-NGLs exhibited inadequate computer literacy skill. A 1-way ANOVA indicated NGLs performed significantly better than non-NGLs on a computer literacy skills assessment; however, examining learner age as a continuous variable via regression yielded different results. There may be validity to claims regarding the comparative computer proficiency of NGLs to non-NGLs, but the level of skill exhibited by learners does not warrant calls for radical educational changes, and the imprecision of arbitrarily defining age as a dichotomous variable produces potentially erroneous results. The effect of type of instruction on learner computer literacy skills was explored. Based on the results in this study, direct instruction focused on a comprehensive scope of computer literacy skills better supports learner acquisition of skills than does informal instruction or instruction focused on a limited range of skills. Future research should use statistical methods that analyze age as a continuous variable while continuing to examine directly the comparative computer literacy skills of NGLs and non-NGLs at all levels of education. Further inquiry into the effectiveness of different types of instruction to support learner acquisition of computer literacy skills should also be conducted

Fall 2016

Dean David Miller and CDM Through the Years; The New ABCs of Digital Literacy; The Younger Generation: Computer Scientists of the Future; The Final Hurdle: Thesis Talk; Telling Stories in Cuba with Abbas Kiarostami with James Choi; Collegiate Cyber Defense Competition; TEDxDePaulUniversity Conference; Tim Nedow, Olympian; Omnibus Crowdfunded Game; News Briefs; The Social Technocrat: Andrew Ruginis; When Computing and Biology Collide; Tori Meschino: Campus Leader and All-Around Superstar; Degrees Offered at CD

Technology integration into the elementary school curriculum

A new generation of students born after 1985 – the Net Generation or Digital Natives – is now entering public schools. Historical overview shows the picture of growing computer use by children in homes and in schools for the past 10 years. ICT (Information and Communication Technologies) literacy skills and tools help students to acquire the skills needed to use the technologies within the classroom. National Educational Technology Standards (NETS) and NETS performance indicators provide guidelines for teachers of what students should know and be able to do with technologies by the end of every grade level. This paper describes the ideas of various authors on how to integrate computer technologies into the elementary school curriculum and to overcome barriers of technology integration. The paper finishes with conclusions and recommendations for the integration of technology in schools

An application of the Kuleshov Experiment on Generation X: Testing viewer reactions to editing

The Kuleshov Experiment, conducted in Russia in 1919, concluded that audiences find meaning in the juxtaposition of unrelated shots. This discovery was one of the earliest observations used to formulate the theory of montage. This study combines historical information related to the original experiment, editing techniques, and theories in visual literacy. This is a quasi-experiment applied to a new generation of viewers; A video that replicates the original experiment is used as a stimulus, and an instrument observes audience\u27s reactions to editing. The assumption made is that a new generation of viewers will be capable of recognizing the lack of connection between the shots. Generation X has had a vast exposure to film, television, and computer-based media; all of which have educated this peer group into recognizing the function of images in an established context. The results of this experiment are important to determine if a new generation of experienced viewers find meaning in the juxtaposition of unconnected shots

Towards information fluency: applying a different model to an information literacy credit course

Purpose – The purpose of this article is to examine information literacy, critical thinking, and computer literacy in higher education and discuss the application of the information fluency model, created by the Associated Colleges of the South, to the Purdue University Libraries one-credit information literacy course, GS 175 Information Strategies. Design/methodology/approach – The case study has a two-part focus. The first examines information literacy, critical thinking, and computer literacy in higher education through a review of the literature. The second part discusses the pilot GS 175 Information Strategies course, shows how the information fluency model was applied, and analyzes the overall success of the pilot. Findings – Today, employers and professors expect graduates and students to exhibit critical thinking, analysis, research, and technology skills at a fairly high level. Universities are responding with a more rapid integration and adoption of technology and creating a higher emphasis on information use and retrieval. Increasingly, student research projects are being displayed, presented, and contained in a variety of formats. Library instruction programs and courses need to evolve and adapt to these changes as shown through the successful modification of the GS 175 Information Strategies course. Practical implications – The article provides ideas and concepts for enhancing the critical thinking and technology components of an information literacy course or program as well as touches on what to avoid when modifying assignments and projects. Originality/value – The application of the information fluency model is a fairly new model to the library profession. This case study shows one way information literacy credit courses can be modified to accommodate the changing educational landscape and the expectations of Generation Y. It can be used by instruction librarians and their faculty partners to explore alternatives to their current instructional programs

Digital literacy: Impacts of technology on learning from Generation Y

This article reports the results of a research project whose purpose was to understand the form of acquisition of digital literacy by Generation Y. The project goal was to identify how this new generation learns and uses Digital Technologies of Information and Communication (TDIC) in and out of school. It also sought to analyze how the domain of such technologies affects such generation’s performance in school. The digital literacy is understood here as a set of skills to read, write and interact with other people, mediated by digital technology devices, whose acquisition by Generation Y occurs at home, still in infancy. A questionnaire about socio-economic and technological development was applied, and the participants (children and adolescents aged 9 to 14) were filmed when performing learning activities in the school computer lab in order to observe what were their technological skills. The resultsindicated that exposure to early technological equipment makes the acquisition of digital literacy by Generation Y as natural as learningto walk and talk and bring in positive impacts on its school learning.Key words: digital literacy, technology, learning.</p

A New Generation Gap? Some thoughts on the consequences of increasingly early ICT first contact

One possible consequence of ICT’s rapid rise will be a new ‘generation gap’ arising from differing perceptions of the learning technologies. The nature, causes and consequences of this gap are of interest to educational practitioners and policymakers. This paper uses data from an ongoing project together with a synopsis of research to describe the ICT-based generation gap that currently exists between students and their teachers and parents. It is argued that this gap may exist between students differing in age by as little as five years. Results from a related project exploring Networked Information and Communication Literacy Skills (NICLS), are used to introduce a discussion on the nature of any skills gap that must be addressed in the light of this generation gap

The net generation and digital natives: implications for higher education

Executive Summary "Our students have changed radically. Today�s students are no longer the people our educational system was designed to teach." (Prensky 2001 p1) 1. There is no evidence that there is a single new generation of young students entering Higher Education and the terms Net Generation and Digital Native do not capture the processes of change that are taking place. 2. The complex changes that are taking place in the student body have an age related component that is most obvious with the newest waves of technology. Prominent amongst these are the uses made of social networking sites (e.g. Facebook), uploading and manipulation of multimedia (e.g. YouTube) and the use of handheld devices to access the mobile Internet. 3. Demographic factors interact with age to pattern students� responses to new technologies. The most important of these are gender, mode of study (distance or place-based) and the international or home status of the student. 4. The gap between students and their teachers is not fixed, nor is the gulf so large that it cannot be bridged. In many ways the relationship is determined by the requirements teachers place upon their students to make use of new technologies and the way teachers integrate new technologies in their courses. There is little evidence that students enter university with demands for new technologies that teachers and universities cannot meet. 5. Students persistently report that they prefer moderate use of Information and Communication Technologies (ICT) in their courses. Care should be taken with this finding because the interpretation of what is �moderate� use of ICT may be changing as a range of new technologies take off and become embedded in social life and universities. 6. Universities should be confident in the provision of what might seem to be basic services. Students appreciate and make use of the foundational infrastructure for learning, even where this is often criticised as being an out of date and unimaginative use of new technology. Virtual Learning Environments (Learning or Course Management Systems) are used widely and seem to be well regarded. The provision by university libraries of online services, including the provision of online e-journals and e-books, are also positively received. 7. Students do not naturally make extensive use of many of the most discussed new technologies such as Blogs, Wikis and 3D Virtual Worlds. The use of 3D Virtual Worlds is notably low amongst students. The use of Wikis and Blogs is relatively low overall, but use does vary between different contexts, including national and regional contexts. Students who are required to use these technologies in their courses are unlikely to reject them and low use does not imply that they are inappropriate for educational use. The key point being made is that there is not a natural demand amongst students that teaching staff and universities should feel obliged to satisfy. 8. There is no obvious or consistent demand from students for changes to pedagogy at university (e.g. demands for team and group working). There may be good reasons why teachers and universities wish to revise their approaches to teaching and learning, or may wish to introduce new ways of working. Students will respond positively to changes in teaching and learning strategies that are well conceived, well explained and properly embedded in courses and degree programmes. However there is no evidence of a pent-up demand amongst students for changes in pedagogy or of a demand for greater collaboration. 9. There is no evidence of a consistent demand from students for the provision of highly individualised or personal university services. The development of university infrastructures, such as new kinds of learning environments (for example Personal Learning Environments) should be choices about the kinds of provision that the university wishes to make and not a response to general statements about what a new generation of students are demanding. 10. Advice derived from generational arguments should not be used by government and government agencies to promote changes in university structure designed to accommodate a Net Generation of Digital Natives. The evidence indicates that young students do not form a generational cohort and they do not express consistent or generationally organised demands. A key finding of this review is that political choices should be made explicit and not disguised by arguments about generational change