Invisible publics; higher education and digital exclusionSue Watling
Chapter 6 Invisible publics; higher education and digital exclusion from Towards Teaching in Public Reshaping the Modern University (2012) Edited by Mike Neary, Howard Stevenson, Les Bell.
An Assessment of the Availability of ICT Infrastructure for Curriculum Instru...iosrjce
The integration of Information and Communication Technology (ICT) into the curriculum has
become a necessity worldwide. The education system does not only pursue the integration of ICT into the
curriculum because of its popularity in the market system, but because of the role it is perceived to play in the
changing curriculum (encourages active construction of knowledge). This paper undertakes an assessment of
the availability of ICT infrastructure for curriculum instruction based on a study of public secondary schools in
Mumias sub-County in Kakamega County, Kenya. The study adopted a descriptive survey design. The target
population comprised head teachers, teachers and students in public secondary schools in Mumias sub-County.
Schools were selected using stratified random sampling technique while students’ sample size was determined
using Kathuri and Pals formula. Head teachers and heads of computer departments were purposively selected.
Questionnaire, structured interview schedule and content analysis were the main instruments of data collection
for the study. Two sets of questionnaire were prepared, one for the students and the other for the teachers. The
structured interview schedule was used to solicit information from the head teachers. Both qualitative and
quantitative data were collected for the study. Qualitative data was analyzed descriptively. Analyzed data was
presented in form of cumulative frequency tables, percentages and graphs. The study established that the main
ICT facilities in place in most schools in Mumias sub-County were radio for interactive radio instruction and
computers. The radios available in the studied secondary schools were however inadequate. A majority of the
examined secondary schools had an average computer to learner ratio of 30:1. The study recommended that the
Ministry of Education should hasten the development of ICT policy to ensure that teachers practice what is in
line with the ministry’s expectations, schools should involve their governing bodies to facilitate provision of ICT
infrastructure and that concerned departments within the Ministry of Education should conduct regular and
differentiated ICT teacher trainings.
Invisible publics; higher education and digital exclusionSue Watling
Chapter 6 Invisible publics; higher education and digital exclusion from Towards Teaching in Public Reshaping the Modern University (2012) Edited by Mike Neary, Howard Stevenson, Les Bell.
An Assessment of the Availability of ICT Infrastructure for Curriculum Instru...iosrjce
The integration of Information and Communication Technology (ICT) into the curriculum has
become a necessity worldwide. The education system does not only pursue the integration of ICT into the
curriculum because of its popularity in the market system, but because of the role it is perceived to play in the
changing curriculum (encourages active construction of knowledge). This paper undertakes an assessment of
the availability of ICT infrastructure for curriculum instruction based on a study of public secondary schools in
Mumias sub-County in Kakamega County, Kenya. The study adopted a descriptive survey design. The target
population comprised head teachers, teachers and students in public secondary schools in Mumias sub-County.
Schools were selected using stratified random sampling technique while students’ sample size was determined
using Kathuri and Pals formula. Head teachers and heads of computer departments were purposively selected.
Questionnaire, structured interview schedule and content analysis were the main instruments of data collection
for the study. Two sets of questionnaire were prepared, one for the students and the other for the teachers. The
structured interview schedule was used to solicit information from the head teachers. Both qualitative and
quantitative data were collected for the study. Qualitative data was analyzed descriptively. Analyzed data was
presented in form of cumulative frequency tables, percentages and graphs. The study established that the main
ICT facilities in place in most schools in Mumias sub-County were radio for interactive radio instruction and
computers. The radios available in the studied secondary schools were however inadequate. A majority of the
examined secondary schools had an average computer to learner ratio of 30:1. The study recommended that the
Ministry of Education should hasten the development of ICT policy to ensure that teachers practice what is in
line with the ministry’s expectations, schools should involve their governing bodies to facilitate provision of ICT
infrastructure and that concerned departments within the Ministry of Education should conduct regular and
differentiated ICT teacher trainings.
Information and communication technologies (ICT) are simply technologies arising fromscientific and technological progress in computer sciences, electronics andtelecommunications. They enable us to process, store, retrieve and disseminate valuableinformation in text, sound and video form. In an increasing interconnected world, brought about by the application of technological advances to all sectors of society, quality education necessitates active and innovative exploration to maximize the benefits of ICT and developand maintain the partnerships that use of ICT in education requires. This calls for re-conceptualising and restructuring the educational enterprise, so as to confront thetechnological challenges of this millennium. With rapid changes within society and radical transformations in the way people acquire knowledge, new teaching paradigms arerequired, ones that tune educational systems to modern times and ensure quality trainingfor large numbers of persons.
Digital landscapes: inclusive potential versus exclusive practice. Sue Watling
Digital landscapes: inclusive potential versus exclusive practice. International Journal of Diversity in Organizations, Communities and Nations, 11 (5). pp. 109-116. ISSN 1447-9532
Unlocking digital literacy practices of EFL teachersEkoPurwanti1
Digital literacy practice is necessary for education since information and communication technology has developed rapidly, resulting in shifting to the era of digital technology. The digital literacy practices in school and especially in classrooms are required for preparing 21st-century students. This study aims to (1) determine teachers’ perceptions of digital literacy practices in the level of classroom and school, (2) point out the digital literacy practices of English Foreign Language (EFL) teachers, and (3) investigate the challenges faced by the EFL teachers in applying digital literacy practices in the classroom. This study revealed the digital literacy practices of thirteen EFL Teachers in Yogyakarta using questionnaires and semi-structured interviews. The results uncovered that digital literacy was highly supported, evidenced by the facility, equipment, and the connectivity provided in all schools with a variety of free internet access. In the classroom level, these teachers practised digital literacy by using some digital tools. In implementing digital literacy, the teachers faced some challenges, such as defective equipment and Internet access and intrinsic factors such as teachers’ knowledge in technology, their attitudes toward digital technology, and students’ commitment to apply digital literacy. These findings are followed by recommendations for schools, teachers, and further research.
Information and communication technologies (ICT) are simply technologies arising fromscientific and technological progress in computer sciences, electronics andtelecommunications. They enable us to process, store, retrieve and disseminate valuableinformation in text, sound and video form. In an increasing interconnected world, brought about by the application of technological advances to all sectors of society, quality education necessitates active and innovative exploration to maximize the benefits of ICT and developand maintain the partnerships that use of ICT in education requires. This calls for re-conceptualising and restructuring the educational enterprise, so as to confront thetechnological challenges of this millennium. With rapid changes within society and radical transformations in the way people acquire knowledge, new teaching paradigms arerequired, ones that tune educational systems to modern times and ensure quality trainingfor large numbers of persons.
Digital landscapes: inclusive potential versus exclusive practice. Sue Watling
Digital landscapes: inclusive potential versus exclusive practice. International Journal of Diversity in Organizations, Communities and Nations, 11 (5). pp. 109-116. ISSN 1447-9532
Unlocking digital literacy practices of EFL teachersEkoPurwanti1
Digital literacy practice is necessary for education since information and communication technology has developed rapidly, resulting in shifting to the era of digital technology. The digital literacy practices in school and especially in classrooms are required for preparing 21st-century students. This study aims to (1) determine teachers’ perceptions of digital literacy practices in the level of classroom and school, (2) point out the digital literacy practices of English Foreign Language (EFL) teachers, and (3) investigate the challenges faced by the EFL teachers in applying digital literacy practices in the classroom. This study revealed the digital literacy practices of thirteen EFL Teachers in Yogyakarta using questionnaires and semi-structured interviews. The results uncovered that digital literacy was highly supported, evidenced by the facility, equipment, and the connectivity provided in all schools with a variety of free internet access. In the classroom level, these teachers practised digital literacy by using some digital tools. In implementing digital literacy, the teachers faced some challenges, such as defective equipment and Internet access and intrinsic factors such as teachers’ knowledge in technology, their attitudes toward digital technology, and students’ commitment to apply digital literacy. These findings are followed by recommendations for schools, teachers, and further research.
The Impact of ICT on Students of The Preparatory Academic Unit 14 of The Auto...inventionjournals
For the following investigation was taken as study area High Academic Unit 14, belonging to the Autonomous University of Nayarit, which aims to determine the level of knowledge and management of Information Technology and Communication -ICT- by students, applying these technologies in various activities inside and outside school. Also, the collection of information involved with the lifting of 101 surveys, consisting of the following questions, 1. How old are you? 2. What is your sex? 3. Do you make use of technologies such as computer, internet, programs, email, social networks, etc.? 4. What place make use of the internet for your questions and / or tasks? 5. In providing Internet services, which often use? 6. To which social networks you connect constantly? 7. Do you think anyone can handle technological tools? 8. Which of these programs you constantly use to your academic activities? 9. The level of use of information technologies and communication - ICT- at your school is? applied to groups of first year for which the data were processed statistically using contingency tables in SPSS 19 program, obtaining as main result a moderate about knowledge and use of ICT impact.
Integrating Ict Software in the Teaching of Accounting in Tertiary Institutio...inventionjournals
The purpose of this study was to ascertain the extent to which Accounting lecturers use ICT in the teaching of Accounting in tertiary institutions in Rivers State. Three research questions were used to obtain relevant responses needed for the study; accordingly, three hypotheses were also formulated. The research design was the descriptive survey design and the sample size was seventy (70) Accounting lecturers that exist in the five tertiary institutions used for the study. The instrument used was Information and Communication Technology Teaching Accounting of Accounting Questionnaire (ICTTAAQ) made up of three major parts; A: Demographics; B (three sections) addressing relevant research questions. The ICTTAAQ met both validity and reliability criteria. The study revealed among other things that Accounting lecturers do not make enough use of Accounting software in the teaching of Accounting. Consequently, the three research hypotheses that guided the study were also rejected. The study recommended that based on the role ICT and Accounting software in the improvement of teaching of Accounting, Management of tertiary institutions should provide ICT tools and accounting libraries, and where they are available, Accounting lecturers should utilize them properly to enhance professional competence.
HOW THE INFORMATION SOCIETY IS CHANGING THE WAY OF LEARNINGIngrid Noguera
Presentation at the FMSH (Paris) about how the information society and the Net Generation are promoting changes in education related to the use of ICT.
Unit – I: INFORMATION AND COMMUNICATION TECHNOLOGY
ICT: Concept, Objectives, Need and Importance of ICT - Characteristics and Scope of Information and Communication Technology.
Ranking the Criteria of Quality Evaluation for Intellectual Information on In...IJITE
Recent past has witnessed the fast use of the information and communication technology in the ever
developing field of education. Enormous information is brought to the classroom for easy access by the
learner anywhere in the world. Learners of today are distinguished by their proficiency in use of
technology to know about assessment and successful management of informational opportunities. Critical
analysis of existing education scenario emphasizes the introduction of major thrust areas as Information
Communication Technology, literacy, organization of curriculum, and others. This is to elevate the
standard of education and disseminate the information in shortest time with use of online and offline
resources through internet. These are for professional growth, teaching support materials and other
classroom related activities. The research work and true knowledge of topics calls for the need to evaluate
the information provided on the internet. The present paper caters to this need, especially in context to
intellectual information available on the internet. The research work in this paper is accomplished by
selecting a system of quality criteria and defining in terms of internet usage for intellectual purpose.
Several questions are designed to assess each criterion and as a result an instrument is developed and
validated in the form of a questionnaire. The quality criteria taken into consideration are as Content,
Objective reasoning, Scope, Authority; these are further classified into indicators for easy assessment.
The collected data has been tabulated and analysed to rank the criteria as per their preference for quality
assessment of the intellectual information available on the internet. The results indicate that authority is
the most preferred criteria while objective reasoning is the least preferred one as per their calculated
mean values.
Ranking the Criteria of Quality Evaluation for Intellectual Information on In...IJITE
Recent past has witnessed the fast use of the information and communication technology in the ever
developing field of education. Enormous information is brought to the classroom for easy access by the
learner anywhere in the world. Learners of today are distinguished by their proficiency in use of
technology to know about assessment and successful management of informational opportunities. Critical
analysis of existing education scenario emphasizes the introduction of major thrust areas as Information
Communication Technology, literacy, organization of curriculum, and others. This is to elevate the
standard of education and disseminate the information in shortest time with use of online and offline
resources through internet. These are for professional growth, teaching support materials and other
classroom related activities. The research work and true knowledge of topics calls for the need to evaluate
the information provided on the internet. The present paper caters to this need, especially in context to
intellectual information available on the internet. The research work in this paper is accomplished by
selecting a system of quality criteria and defining in terms of internet usage for intellectual purpose.
Several questions are designed to assess each criterion and as a result an instrument is developed and
validated in the form of a questionnaire. The quality criteria taken into consideration are as Content,
Objective reasoning, Scope, Authority; these are further classified into indicators for easy assessment.
The collected data has been tabulated and analysed to rank the criteria as per their preference for quality
assessment of the intellectual information available on the internet. The results indicate that authority is
the most preferred criteria while objective reasoning is the least preferred one as per their calculated
mean values.
Ranking the criteria of quality evaluation forIJITE
Recent past has witnessed the fast use of the information and communication technology in the ever
developing field of education. Enormous information is brought to the classroom for easy access by the
learner anywhere in the world. Learners of today are distinguished by their proficiency in use of
technology to know about assessment and successful management of informational opportunities. Critical
analysis of existing education scenario emphasizes the introduction of major thrust areas as Information
Communication Technology, literacy, organization of curriculum, and others. This is to elevate the
standard of education and disseminate the information in shortest time with use of online and offline
resources through internet. These are for professional growth, teaching support materials and other
classroom related activities. The research work and true knowledge of topics calls for the need to evaluate
the information provided on the internet. The present paper caters to this need, especially in context to
intellectual information available on the internet. The research work in this paper is accomplished by
selecting a system of quality criteria and defining in terms of internet usage for intellectual purpose.
Several questions are designed to assess each criterion and as a result an instrument is developed and
validated in the form of a questionnaire. The quality criteria taken into consideration are as Content,
Objective reasoning, Scope, Authority; these are further classified into indicators for easy assessment.
The collected data has been tabulated and analysed to rank the criteria as per their preference for quality
assessment of the intellectual information available on the internet. The results indicate that authority is
the most preferred criteria while objective reasoning is the least preferred one as per their calculated
mean values.
T. Srilatha, 2021. Detection of Hazardous Gases Using the Sensors and Passing Alerts to the Neighbourhood Though Mobile Cloud. United International Journal for Research & Technology (UIJRT), 3(1), pp.19-23.
Kurniasari, F. and Riyadi, W.T., 2021. Determinants of Indonesian E-Grocery Shopping Behavior After Covid-19 Pandemic Using the Technology Acceptance Model Approach. United International Journal for Research & Technology (UIJRT), 3(1), pp.12-18.
Olorunnisola, A.O., Richards, A. and Omoniyi, T.E., 2021. A Review on the Renewable Energy from Agricultural and Forest Residues in Nigeria. United International Journal for Research & Technology (UIJRT), 3(1), pp.04-11.
Abideen Adeyinka Adekanmi, Adeniyi Sheriffdeen Adekanmi and Uthman Taiwo Adekanmi “Biotreatment of Slaughterhouse Waste Water by Microalgae” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 09, pp. 19-30, 2020. https://uijrt.com/articles/v1i9/UIJRTV1I90003.pdf
Idowu Olusegun Oladele “Emerging Trends in Private Security Companies (PSCs) and Security Services in Southwest Nigeria” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 09, pp. 04-18, 2020. https://uijrt.com/articles/v1i9/UIJRTV1I90002.pdf
Dr. S. Saravana Kumar “A Systematic Review on the Educational Data Mining and its Implementation in the Applications ” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 09, pp. 01-03, 2020. https://uijrt.com/articles/v1i9/UIJRTV1I90001.pdf
Larry Lanzema Dangana and Halil Zafer Alibaba,“Effects of Thermal Insulation Deficits in Famagusta Buildings” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 07, pp. 05-13, 2020. https://uijrt.com/articles/v1i7/UIJRTV1I70001.pdf
Larry Lanzema Dangana “Feasibility Analysis of Applying Thermal Insulation Composite Wall in Residential Buildings” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 07, pp. 01-04, 2020. https://uijrt.com/articles/v1i7/UIJRTV1I70001.pdf
Salimat Yewande Bakare and Halil Zafer Alibaba,“The Construct of Comfort: A Case Study of Environmental Comfort of University Classrooms” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 06, pp. 19-23, 2020. https://uijrt.com/articles/v1i6/UIJRTV1I60003.pdf
Mulugeta Bantigegn, Achenef Motbainor and Teferi Mekonnon,“Onsite Proper Solid Waste Handling Practices and Associated Factors Among Condominium Residents in Debre-Markos Town, East Gojjam Zone, North West Ethiopia: A Community Based Cross-Sectional Study” United International Journal for Research & Technology (UIJRT), Volume 01, Issue 06, pp. 01-11, 2020. https://uijrt.com/articles/v1i6/UIJRTV1I60001.pdf
The Effects of Flooring Material on Thermal Comfort in a Comparative Study Marble and Parquet Flooring
https://uijrt.com/articles/v1i5/UIJRTV1I50004.pdf
Structuring Alternative Investment in Public Private Partnership Projects Using Islamic Financial Instruments
https://uijrt.com/articles/v1i5/UIJRTV1I50002.pdf
In this paper we discuss NEMO-BSP protocol and TOR architecture. NEMO protocol was initially not designed to handle anonymity of TOR architecture. Due to some of the unique feature of TOR architecture, the use of TOR architecture has been rapidly increased these days. TOR architecture provides anonymity which other network architectures failed to provides. When using a TOR a user feels safe and has no issue of tracking and packet tracing. Therefore whenever a NEMO user uses TOR architecture there are much vulnerability in network. In this paper we outline those security issues in details which arise when a NEMO user uses TOR architecture. We hope in future those issues will be solved and implemented in future so that a user not only remains anonymous while using TOR but also remains secure from various types of vulnerabilities.
Mohd. Altamash Sheikh. “Security Issues of Network Mobility (NEMO) with Tor Architecture” United International Journal for Research & Technology (UIJRT) 1.4 (2019): 25-29.
Cavine Onyango Oguta. “The Mass Culture of the Freshwater Rotifers Brachionus Rubens Ehrenberg 1838 Using Different Algal Species Diets” United International Journal for Research & Technology (UIJRT) 1.4 (2019): 10-24.
Ataullah Muneeb and Matiullah Shinwari. “Customer Relation Management (CRM) and its Impact on Organizational Performance: A Case of Etisalat Telecommunication in Afghanistan” United International Journal for Research & Technology (UIJRT) 1.4 (2019): 01-09
S M Masiul Azam, Md Shahidul Islam, Parvin Shahanaz, Md Shafiqur Rahman and Sarder Md Shahriar Alam. “Molecular Characterization of Brassica Cultivars through RAPD Markers” United International Journal for Research & Technology (UIJRT) 1.3 (2019): 41-45.
Ishfaq Majid. “ICT in Assessment: A Backbone for Teaching and Learning Process” United International Journal for Research & Technology (UIJRT) 1.3 (2019): 38-40.
Health problems associated with the consumption of foods that do not meet the hygiene and epidemiological standards are not of recent date and have been occurring continuously throughout the history of human existence. The incidence of food poisoning and foodborne transmissible diseases is three times more common in-home kitchens and households. Restaurant poisoning generally involves a larger number of people, whereas a home-based one involves individuals or a small number of people, so its likelihood of identification by the competent authority or public health organizations and services are significantly smaller. The development of the household food safety questionnaire (HFSQ) for the general population went through five phases (preparation of the questionnaire, distribution of the questionnaire to panelists and then the respondents, statistical analysis and the formation of the final version of the validated questionnaire). A total of 58 particles that formed the basis of the questionnaire were divided into four segments: demographic (10), knowledge (17), opinion (14) and food safety practice (17). Overall, the validity of the questionnaire in examining practice, knowledge and attitude was determined with Cronbach’s alpha = 0.842. The total number of particles adequate for the questionnaire is 29 questions. This questionnaire is a good instrument for assessing the knowledge, attitudes and practices of food handlers in their households.
Daniel Maestro, Arzija Pašalić, Sabina Šegalo and Amar Žilić. “Development and Validation of the Household Food Safety Questionnaire” United International Journal for Research & Technology (UIJRT) 1.3 (2019): 24-32.
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The Level of Digital Fluency Among Al-Aqsa University Teaching Staff Members and Its Relation to Some Other Variables
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UIJRT | United International Journal for Research & Technology | Volume 03, Issue 01, 2021 | ISSN: 2582-6832
All rights are reserved by UIJRT.COM.
The Level of Digital Fluency Among Al-Aqsa University
Teaching Staff Members and Its Relation to Some
Other Variables
Dr. Ashraf Akram Al Hennawi
Ass. Prof Instructional Technology & Information
Faculty of Education – Al-Aqsa University (PO Box 4051)
Gaza, Palestine
Abstract— The current study aims to identify the level of digital fluency among Al-Aqsa University teaching staff
members, and then to reveal its relation to some other variables. This required the researcher to identify the skills of digital
dealing with various technological innovations. To achieve the study objectives, the researcher used the descriptive
approach constructing a scale for digital fluency skills. The study was applied on a sample of Al-Aqsa university lecturers
and professors; their estimated number was (130) teaching staff members who were purposely selected. After
implementing the study, the research reached the following: revealing the teaching staff members’ possessions of digital
fluency domains which all of them were close to the mean (70%) or slightly over. The relative weights ranged from
(65.43%) to (74.81%) for the scale domains and it was (70.32%) for the scales a whole.
Keywords— Digital skills, Digital Learning, e-learning.
INTRODUCTION AND THEORETICAL
BACKGROUND TO THE RESEARCH:
Technology plays a growing and accelerating role in our
lives, and its use has expanded in all fields, including
military, economic and industrial, as has been reflected
in education; Where there has been a tremendous
development in the use of modern technologies in
education as a major component on which to improve
learning environments, facilitate learning and improve
performance; So a lot of new names came up, including
e-learning, smart learning, mobile learning, etc.
In 2015 there were 3 billion Internet users worldwide
(Internet World Stats, However, this number is just
under half of the world's population, and it shows that
developed countries are connected to new technology,
with nearly 90% of North Americans using new
technology (the Internet World States,2015). The vast
amount of information available on the Internet has
contributed to the increase in popularity with more than
250 million different websites and 150 million blogs and
has also facilitated user interactions, especially with the
advent of social networks. In 2010, over 25 billion
tweets were sent on Twitter, four billion photos were
uploaded on Flickr, and twenty-four hours of YouTube
footage were downloaded every minute, and in 2008 the
content was created several million times more than the
amount of information in every book ever written
(Palfrey & Gasser, 2009).
Many studies have found that at least 25% of
adolescents use digital devices within five minutes of
waking up, while children aged 8-12 use digital devices
four and a half hours after waking up (Ipsos Media CT
& Wikia,2013). According to Nokia research, American
smartphone users check their phones 150 times per day,
every six and a half minutes (Spencer, Ben, 2013).
In less than four decades, ICT has changed the way
people communicate and learn, with digital
competencies becoming the nerve of the knowledge
society, and this is reflected in universities around the
world where they have adopted ICT standards; To
enhance these competencies irrespective of the teaching
method used; The role of the educational system in
developing the potential of individuals to communicate,
share and use modern digital technologies and to
enhance their ability to handle the resources of the
digital system.
The smooth and flexible use of digital system resources
in educational institutions is called :(E-mail, Google+,
and Wikipedia tools) digital fluency, which in the ICT
industry is a pressing need; To achieve teaching,
research, and social interaction within educational
institutions.
Digital fluency represents the skills needed to use digital
tools to create, design, and use the information for self-
expression, communication, and sharing events (HSi,
Pinkard & Woolsey,2005).
From a knowledge-centric approach, digital fluency
refers to the capacity to use digital technology skillfully
in a variety of ways (Hsi,2007)
Digital fluency refers to the capacity to effectively
incorporate modern digital technology into teaching
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UIJRT | United International Journal for Research & Technology | Volume 03, Issue 01, 2021 | ISSN: 2582-6832
All rights are reserved by UIJRT.COM.
approaches, such as the creation of teaching materials
and content, information transmission and
interpretation, and knowledge construction in a variety
of educational settings. (Howell, 2012).
Ashford, Robin (2015) that digital fluency is the ability
to understand information efficiently and ethically,
discover meaning, produce content, gain knowledge,
and communicate ideas in a digitally connected world.
Looking at the previous definitions of digital fluency, it
is clear that what is useful goes beyond knowledge or
use, to meaningful and orderly application. Educational
institutions are required to build the capacity of their
students and teachers in all possible technological
aspects, which calls for systematic plans to refine and
raise their skills. Whereas, the digital fluency of
teaching staff would revolutionize the organization of
the education process and the very efficient achievement
of its goals; As exposure to technology-rich
environments may alter their cognitive structure, the
Pew Report (2009) Pew indicated that educated future
generations of digital citizens will have high abilities in
problem-solving and communication using social tools.
Figure 1: Spencer, Karen (2015) identified digital fluency as three key elements: digital proficiency, digital literacy,
and Social Competence.
Elements of digital fluency
Digital Proficiency is defined as the ability to
comprehend, select, and use modern technology and its
tools, whereas Digital Literacy is defined as the
possession of knowledge, skills, and positive trends in
digital techniques, and social Competence is defined as
the ability to effectively and productively communicate
digitally.
Miller, & Bartlett, (2012) identified three components of
digital acumen: good use of the Internet, such as search
engines for results, web design and construction, contact
identification and counterfeiting, and critical evaluation
techniques: the ability of individuals to verify
information, search sources, distinguish qualities of
information and detect risks from misleading websites.
Individuals' capacity to use the Internet in a variety of
ways is referred to as diversity.
Figure 2: Elements of digital fluency
The essence of digital fluency, according to the
researcher, is to make critical thinking one of the
fundamental skills in dealing with the digital world, by
delving into digital knowledge and how to use it
correctly, discovering the strengths and weaknesses of
the digital multi-world, and bridging the digital divide in
an organized and planned manner.
The recent concept of digital literacy, which refers to the
use of new technologies, has emerged as an attempt to
bridge the digital divide between societies as a result of
technological and digital development, with Jewitt
(2006) indicating that the concept of digital literacy has
come to be associated with digital visual, emotional, and
intellectual literacy, attempts to adapt to the new and
continuing demands of the new technologies. In this
sense, digital literacy has evolved over the years and has
been used to explain various aspects of technological
skills, such as the Internet, electronic skills, and
computer skills.
Digital fluency has become a strategic goal in education,
as those in the cognitive and teaching fields are expected
to use ICT products and services extensively. Digital
skills encompass not only computer operation and
network communications, but also network research,
information selection, processing, and applying it from
various sources. (Van Dijk, 1999)
Educational institutions need a stable and resilient
technological infrastructure, as well as effective use of
technology and its tools, and a digital framework that
illustrates ICT, to attain digital fluency. (Howell, 2014)
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Where the technological architecture requires the
presence of multiple digital technologies in the
institution through which the learner can easily access
various existing technological and digital resources and
employ them effectively according to specific criteria to
deal with them and direct individuals towards their
fruitful use, given that the learning practices at present
depend on digital devices that are widely distributed
everywhere, and educational institutions tend to deal
with digital technologies as a cohesive single bloc that
serves and achieves educational goals efficiently.
To do so, educational institutions must have clear
standards for incorporating ICT into their curricula and
materials, including six frameworks (Technological
concepts and processes - research and information on
digital fluency - critical thinking and problem-solving
skills - Communication and collaboration skills - Digital
citizenship skills - and creativity and innovation skills
TDSB, 2008).
In its 2011-2013 initiative on digital literacy, the Joint
Information Systems Committee, 2011 (JISC)
underlined the importance of having the following
digital skills:
1. Information and Communication Technology:
These are skills that show people's use of
information and communication technology.
2. Knowledge of media, information, and data: These
are skills that refer to the use of information, media,
and various digital data.
3. Digital creativity: It refers to the digital creativity of
the individual.
4. Digital communication and sharing: It refers to an
individual's ability to communicate and collaborate
digitally
5. Digital learning and self-development: It refers to
the individual's ability to learn and develop his
personality digitally through digital means and
tools.
6. Digital Identity and Wellbeing: It refers to an
individual's personality and digital identity
Various researchers have conducted studies on digital
fluency including the Ouanessa study. B, (2009)
Yolanda. G, which sought to learn about digital fluency
among faculty members at the University of Maryland
and the University of Graduate Studies in the United
States of America, and the study showed that faculty
members had technological communication and
communication skills available to them by the two
universities such as E-mail and the use of Microsoft's
Word.
The study (Razvan. & oth, 2007) used tests for the
development of digital fluency in the student population,
and the results present a relationship that shows an
improved level of digital fluency in the sample and its
ability to use various digital tools.
The study also showed a decline in interest in Web 1.0
and Web 2.0 applications (learning objects - Web
questions - electronic concept maps - blogs - wikis - and
synchronized chats). Olsen's study (Olsen,2010)
proposed an educational model for teachers that could
increase the digital abilities of high school students,
contributing to their digital abilities and skills. The
Costa PB, & others (2010) has shown that nursing
students at the University of Sao Paulo have a good level
of digital fluency in terms of their knowledge using
digital learning environments and communication tools.
In the field of digital usage culture, Ohio (Heo,2016)
asserts that teachers have used pre-service but limited
intelligent learning techniques, which means they have
no digital usage culture. Miller's study (Miller, 2009)
employs numerous online tools to develop
communication, sharing, and technology as the most
critical abilities of the twenty-first century.
Sense of the research issue:
Through his job as an assistant professor at Al-Aqsa
University specialized in educational technology and his
strong belief in the need of dealing with technological
advances because of its role in telecommunication and
communication, and the novelty of the subject of the
study through the concept of digital fluency in light of
technological development and the extent to which the
academic body possesses the skills of digital interaction,
whether in educational lectures or calendar methods or
in data archiving, preservation, and retrieval, as well as
preserving electronic publishing rights, the researcher
felt the importance of the study, the researcher
recognized the significance of the study, whose findings
will provide valuable input to Al Aqsa University's
academic review administration.
The research issue:
The following was the study's major question: "What is
the level of digital fluency among Al-Aqsa University
academic faculty members, and how is it related to other
variables?"
The following sub-questions emerge from the main
question:
1. What is the level of digital fluency among members
of the academic staff at Al-Aqsa University?
2. Is there a statistically significant difference in the
level of digital fluency among Al-Aqsa University's
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3. Does the variable of specialization (applied and
natural sciences, human sciences) have a
statistically significant impact on the level of digital
fluency among members of the academic staff at
Al-Aqsa University?
Study assignments:
1. The digital energy level of the academic staff at Al-
Aqsa University exceeds 80% as an admission
level.
2. There are no differences in the level of digital
fluency among members of the academic staff at
Al-Aqsa University at the level of statistical
significance (α ≤ 0.05) due to the gender variable
(males, females).
3. There are no differences in the level of digital
fluency among members of the academic staff at
Al-Aqsa University at the level of statistical
significance (α ≤ 0.05) to the variable of
specialization (Applied and natural sciences, human
sciences)
Study Objectives: The current study aimed to:
1. Identify the level of digital fluency among members
of the academic staff at Al-Aqsa University.
2. Identifying the relevance of gender variations in the
level of digital fluency among Al-Aqsa University
academic personnel (male-female).
3. Identifying the relevance of disparities in digital
fluency levels among Al-Aqsa University academic
staff members related to specialized variables
(applied and natural sciences, human sciences)
The importance of the study:
The importance of the current study is as follows:
1. The results of the current study can be useful in
contributing to determining the digital level of
employees at Al-Aqsa University and contributing
to identifying strengths and addressing weaknesses.
2. The current study includes a list of digital fluency
indicators as well as a scale for determining them,
which other researchers can use in future research.
Study terminology:
Digital fluency is procedurally defined by the researcher
as "sufficient digital skills to use various modern
technologies for telecommunications, communications,
self-expression, knowledge formation, and sharing must
be possessed by the faculty of Al-Aqsa University ".
Academic Body:
The Scholar procedurally defines it as "the academic
staff of Al-Aqsa University during the first semester of
the year 2017-2018 who hold degrees that qualify them
to teach the teaching courses there ".
Al-Aqsa University, procedurally defined by the
researcher, is "a public university in the Gaza Strip that
provides educational services according to specific
standards and foundations to develop the capabilities of
its students in various fields."
The limits of the study: The limits of the study were
limited to:
1. The study was carried out during the first semester
of the academic year 2017-2018.
2. The study was carried out on a sample of the faculty
members working at the Faculty of Education of Al-
Aqsa University.
3. Study results were related to the sample nature of
the faculty members working at Al-Aqsa
University's Faculty of Education.
METHOD AND PROCEDURES
The curriculum of study: To achieve the goals of the
current study, the researcher used a descriptive approach
concerned with describing the phenomenon, collecting,
analyzing, and then manipulating data to show the
relationship between its dimensions, and its
implications.
Study community:
The study community consists of 450 members of the
academic faculty of the Faculty of Education holding
master's and doctorate degrees.
Study sample:
The study sample consisted of (147) faculty members
from the Faculty of Education at Al-Aqsa University,
and they constituted (30%) of the study population.
The study tool: After reviewing educational literature in
general, previous studies in particular, and the results of
conferences relevant to the subject matter of the study,
the researcher designed the study tool to include in its
initial form 30 paragraphs distributed over 6 areas, of
multiple choice type, which are responded to according
to the Pentagon gradium. The scores on this scale are as
follows (Very Large (5) - Large (4) - Neutral (3) - Low
(2) - Very Low (1)), according to the Likert scale.
Trustness and consistency of the study tool:
To calculate the truthness and consistency of the study
tool, the researcher applied the resolution to a 30-
member survey of the academic staff of Al-Aqsa
University.
The questionnaire's validity: Structural validity depicts
the relationship between each area of the questionnaire
and the total score of the questionnaire items.
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Table 1: The relationship between the total score of the
questionnaire items and each field of the questionnaire
The
correlation
coefficient
Field
Number
098.0**
ICT competencies
1
719.0**
Digital Identity and
well-being
2
359.0**
Digital learning and
self-development
3
169.0**
Media, Information
and Data Knowledge
4
319.0**
Digital creativity
5
758.0**
Digital communication
and sharing
6
The correlation is statistically significant at the
significance level (0.01) and the degree of freedom
(28)**
From table 1, all resolution fields are directly correlated
at 0.01 and show fields to be correlated with the total
resolution, which provides assurance to the researcher
that subfields are correlated with the total resolution.
The investigator thus ascertained that the resolution was
characterized by a high degree of constructive veracity.
Resolution questionnaire:
Cronbach's alpha coefficient was calculated to measure
the stability of each field of the resolution, in addition to
calculating the stability of the resolution as a whole.
Table 2: The parameters of the questionnaire:
Stability
coefficient
Number
Field
649.0
6
ICT competencies
1
529.0
3
Digital Identity and
well-being
2
669.0
3
Digital learning and
self-development
3
039.0
5
Media, Information
and Data Knowledge
4
919.0
4
Digital creativity
5
189.0
3
Digital
communication and
sharing
6
The researcher utilized the statistical software (SPSS) to
gather and analyze the study's results, and the level of
digital fluency of Al Aqsa University faculty members
was established by distinguishing between five levels of
relative weights, where the sample members agreed to
the paragraph:
Table 3: Mean Aithmetic and Relative Weight
Too low
Low
Average
High
Too high
Level
1.8-less than 2.6
2.6 – less than 3.4
3.4 – less than 4.2
4.2- 5
Mean arithmetic
0.01 less than 0.36
0.36 – less than 0.52
0.52- less than 0.68
0.68- less than0.84
0.84 - 1
Relative weight
Table 4: Description of the study sample
Total
Percentage
Number
level
Variable
147
72.1
106
Male
Gender
27.9
41
Femele
147
19.0
28
5.10
Years of experience
42.9
63
10-15
38.1
56
15 and more
147
21.8
32
Literature
College
5.4
8
Media
21.8
32
Teaching
7.5
11
Sport
23.8
35
Science
19.7
29
Others
Statistical treatment:
In analyzing study data, the researcher used arithmetic
means and standard deviations, relative weight,
Cronbach alpha coefficient, and AMOS factorial
analysis test.
Study results:
Results of the answer to the first question: Which states:
What is the level of digital fluency of the academic staff
at Al Aqsa University? To answer this question, the
researcher calculated mean, standard deviations, and
relative weights for individual paragraphs, for areas, and
the overall questionnaire. The following table shows the
results obtained by the researcher:
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Table 5: Arithmetic means, standard deviations, and relative weights of paragraphs and fields of the questionnaire
NO. Paragraph Mean
Arithmetic
Standard
Deviation
Relative
Weight
The Paragraph
order by field
Level
1. Use of ICT-based devices (computers,
tablets, digital devices, smartphones,
etc)
3.72 0.81 0.74 3 High
2. Use of different search engines and
web browsers
3.78 0.84 0.76 1 High
3. Use digital capture devices (cameras -
audio recorders - video cameras)
3.71 0.79 0.74 4 High
4. Using Google applications (Gmail -
Blogs - Websites - Templates - Photos
– SkyDrive)
3.76 0.78 0.75 2 High
5. Managing a video channel on
YouTube (downloading videos -
editing videos - deleting videos)
3.46 0.89 0.69 6 High
6. Making settings for various digital
devices (cameras, smartphones,
tablets, laptops, desktop computers,
etc)
3.54 0.83 0.71 5 High
Field 1: ICT competencies 3.66 0.70 0.73 1 High
average
2
0.62
0.75
3.10
Personal development, organization and maintenance of its digital identifier
using a variety of online platforms and social networks
7
average
3
0.61
0.82
3.06
Managing health and safety issues, relationships, and work-life balance
about technologies and digital societies
8
average
1
0.63
0.87
3.13
Using digital technologies to achieve well-being and improve it
9
average
3
0.62
0.75
3.10
Field TWO: Digital Identity and Well-being
average
3
0.60
0.86
3.01
Identifying personal digital abilities and skills and opportunities for their
development "Monitoring my personal needs"
10
average
2
0.60
0.86
2.99
Learning improvement opportunities using a range of digital tools, learning
environments, and media
11
average
1
0.61
0.86
3.04
Use digital applications to plan, organize, and record learning and its
achievements
12
average
6
0.60
0.79
3.01
Area III: Digital learning and self-development
average
2
0.62
0.86
3.12
The processes of searching, absorbing, managing, organizing, evaluating,
interpreting, and sharing digital information
13
average
1
0.63
0.85
3.14
Work with others and share data digitally
14
average
5
0.61
0.87
3.03
Understand and apply legal, ethical, and security requirements while
working on digital information
15
average
3
0.61
0.89
3.07
Access to a wide range of digital media (images, audio, text, video, etc)
16
average
4
0.61
0.91
3.07
Understanding the legal implications of using media created by others
17
average
5
0.60
0.76
3.01
Domain Four: Media, Information and Data Knowledge
average
1
0.62
0.80
3.11
Use technical tools to create different forms of knowledge: audio, images,
presentation, etc
18
average
2
0.61
0.82
3.03
A clear understanding of the design fundamentals of these different forms to
draw clear relationships with the audience, and to deal with different
applications
19
average
3
0.59
0.84
2.94
Create new solutions and practices using digital technologies and measure
their impact.
20
average
4
0.59
0.92
2.94
Explore and share new research information using digital tools
21
average
4
0.62
0.79
3.09
Domain Five: Digital Creativity
average
1
0.70
0.82
3.52
Communicate with others effectively and appropriately through a range of
tools: mail, Twitter, blogs...etc
22
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average
3
0.69
0.89
3.45
Share with others using technologies and digital media and identify
opportunities for participatory teamwork
23
High
2
0.69
0.85
3.46
Effective community participation in digital communities and in accordance
with ethical standards
24
High
0.70
0.79
3.48
Domain Six: Communication and digital sharing
average
0.65
0.67
3.26
The questionnaire as a whole
Results of the answer to the second question: Which
states:
Does the average response of the academic staff at Al-
Aqsa University differ from the acceptance level, which
is (80%)? To answer this question, the researcher tested
the null hypothesis: "The average responses of the
academic staff at Al-Aqsa University does not exceed
the acceptance level, which is (80%) at the level of
significance (α ≤ 0.05).Zero assumption was tested
using a single sample; the following table shows the
results obtained by the investigator:
The tabular value of t at a degree of freedom (146)
and a significance level (0.05) is equal to (1.976)
From table 4, it is clear that the calculated value of T is
statistically significant at the significance level (0.01).
This means that the average responses of the sample
members to the acceptance level (4).
By looking at the arithmetic means the results show that
the means for all fields and the measure as a whole are
below the acceptance level (4).
We, therefore, accept the zero assumption that "the
average responses of members of the academic faculty
at Al- Aqsa University shall not exceed the acceptance
level (80%)."
This means that members of the academic faculty have
not reached their digital fluency level (80%)
Table 6: A single sample test for differences between the responses mean and the acceptance level (80% = 4)
Scale Arithmetic
mean
Standard
deviation
T
value
Level of
significance
Statistical
significance
ICT competencies 3.66 0.70 5.903 0.001 Evidence found
Digital Identity and well-
being
3.10 0.75 14.657 0.001 Evidence found
Digital learning and self-
development
3.01 0.79 15.181 0.001 Evidence found
Media, Information and
Data Knowledge
3.09 0.79 13.937 0.001 Evidence found
Digital creativity 3.01 0.76 15.804 0.001 Evidence found
Digital communication and
sharing
3.48 0.79 7.987 0.001 Evidence found
Overall standard 3.26 0.67 13.523 0.001 Evidence found
Results of the response to question 3
Which states: Is there a statistically significant
difference in the level of digital fluency among members
of the academic staff at Al-Aqsa University due to the
gender variable (male-female)?
To answer the question, the researcher tested the null
hypothesis, which states: There is no difference in the
level of digital fluency among members of the academic
staff at Al-Aqsa University at the level of statistical
significance ((α ≤ 0.05)) due to the gender variable. The
researcher used the T-test for two independent samples
to test the validity of the statistical hypothesis. Table 5
shows the results of the hypothesis test:
Table 7: Testing of two independent samples to indicate differences between the mean of the study sample members
based on sex variant
Field Gender Number Arithmetic
Average
Standard
deviation
Degree
of
Freedom
Calculated
"T"
The
value
of
Sig
Significance
ICT
competencies
Male 106 3.73 0.67 145 2.059 0.410 Evidence
found
Female 41 3.47 0.74
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Digital Identity
and well-being
Male 106 3.14 0.73 145 1.067 0.288 Evidence
found
Female 41 2.99 0.78
Digital learning
and self-
development
Male 106 3.07 0.77 145 1.455 0.148 Evidence
found
Female 41 2.86 0.83
Media,
Information and
Data
Knowledge
Male 106 3.15 0.77 145 1.671 0.097 Evidence
found
Female 41 2.91 0.84
Digital
creativity
Male 106 3.04 0.75 145 1.014 0.315 Evidence
found
Female 41 2.90 0.80
Digital
communication
and sharing
Male 106 3.53 0.81 145 1.360 0.176 Evidence
found
Female 41 3.33 0.75
The
questionnaire as
a whole
Male 106 3.32 0.64 145 1.720 0.088 Evidence
found
The tabular value of "T" at the degree of freedom
(145) and the level of significance (0.05) equals
(1.976)
It is clear from the previous table that all the calculated
“T” values were not statistically significant in the
domains of the digital fluency scale and the scale as a
whole - except for the domain of IT competencies.
Since the value of (Sig) was greater than (0.05), and
therefore we accept the null hypothesis which states:
There is no difference in the level of digital fluency
among members of the academic staff at Al-Aqsa
University at the level of statistical significance ((α ≤
0.05)) due to the gender variable in all fields; Total
degree excluding ICT competencies.
Results of the answer to question 4, which states: Is
there a statistical difference in digital fluency among
members of the academic faculty of Al-Aqsa University
due to the variable years of experience? To answer the
question, the researcher tested the null hypothesis,
which states: There is no difference in the level of digital
fluency among members of the academic staff at Al-
Aqsa University at the level of statistical significance ((α
≤ 0.05)) due to the variable years of experience. The
researcher used a single-variance analysis test to test the
validity of a statistical hypothesis.
Table 8: Single-variance analysis test for differences between the mean of the study population, based on a variable of
years of experience
Field Source Sum of
Squares
Degree of
Freedom
Average
Squares
The
value
of F
The
value of
Sig
Level of
significance
ICT competencies Among
groups
0.663 2 0.331 0.675 0.511 No Evidence
found
Within
groups
70.704 144 0.491
Total 71.367 146
Digital Identity and
well-being
Among
groups
0.255 2 0.127 0.226 0.798 No Evidence
found
Within
groups
81.141 144 0.563
Total 81.396 146
Digital learning and
self-development
Among
groups
0.421 2 0.210 0.336 0.715 No Evidence
found
Within
groups
90.220 144 0.627
Total 90.641 146
Media, Information
and Data Knowledge
Among
groups
0.565 2 0.283 0.445 0.642 No Evidence
found
Within
groups
91.520 144 0.636
Total 92.085 146
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Digital creativity Among
groups
0.427 2 0.213 0.363 0.696 No Evidence
found
Within
groups
84.632 144 0.588
Total 85.059 146
Digital
communication and
sharing
Among
groups
0.278 2 0.139 0.217 0.805 No Evidence
found
Within
groups
91.988 144 0.639
Total 92.266 146
The questionnaire as a
whole
Among
groups
0.253 2 0.126 0.283 0.754 No Evidence
found
Within
groups
64.355 144 0.447
Total 64.608 146
It is clear from the previous table that all the values of
“F” change statistically in the areas of the digital fluency
scale and the scale as a whole, and therefore we accept
the null hypothesis that states: There is no difference in
the level of digital fluency among members of the
academic staff at Al-Aqsa University at the level of
statistical significance ((α ≤ 0.05)) due to the variable
years of experience.
Results of the answer to the fifth question: which
states: Is there a statistically significant difference in the
level of digital fluency among members of the academic
staff at Al-Aqsa University due to the college variable?
To answer the question, the researcher tested the null
hypothesis, which states: There is no difference in the
level of digital fluency among members of the academic
staff at Al-Aqsa University at the level of statistical
significance ((α ≤ 0.05)) due to the college variable. The
researcher used a single-variance analysis test to test the
validity of a statistical hypothesis. Table 7 shows the
results of the hypothesis test:
Table 9: Single Variability Analysis Test Indicates the Differences between the Means of Study Sample People Based on
the College Variant
Field Source Sum of
Squares
Degree of
Freedom
Average
Squares
The
value
of F
The
value of
Sig
Level of
significance
ICT competencies Among
groups
1.946 5 0.389 0.791 0.558 No Evidence
found
Within
groups
69.420 141 0.492
Total 71.367 146
Digital Identity and
well-being
Among
groups
1.294 5 0.259 0.456 0.809 No Evidence
found
Within
groups
80.102 141 0.568
Total 81.396 146
Digital learning and
self-development
Among
groups
0.757 5 0.151 0.237 0.945 No Evidence
found
Within
groups
89.884 141 0.637
Total 90.641 146
Media, Information
and Data Knowledge
Among
groups
0.291 5 0.058 0.090 0.994 No Evidence
found
Within
groups
91.794 141 0.651
Total 92.085 146
Digital creativity Among
groups
1.667 5 0.333 0.564 0.728 No Evidence
found
Within
groups
83.392 141 0.591
Total 85.059 146
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Digital
communication and
sharing
Among
groups
0.240 5 0.048 0.074 0.996 No Evidence
found
Within
groups
92.026 141 0.653
Total 92.266 146
The questionnaire as a
whole
Among
groups
0.569 5 0.114 0.250 0.939 No Evidence
found
Within
groups
64.040 141 0.454
Total 64.608 146
It is clear from the previous table that all the valuesof
“F” change statistically in the areas of the digital fluency
scale and the scale as a whole, and therefore we accept
the null hypothesis that states: There is no difference in
the level of digital fluency among members of the
academic staff at Al-Aqsa University at the level of
statistical significance ((α ≤ 0.05)) due to the College
Variant.
RECOMMENDATIONS: IN LIGHT OF THE
RESULTS OF THE STUDY, THE RESEARCHER
RECOMMENDS THE FOLLOWING:
Activating training programs to raise the digital
skills of faculty members at Al-Aqsa University.
Holding educational workshops in the field of
digital identity and its meaning, and digital
creativity and its meaning to spread the culture of
the two concepts among faculty members at Al-
Aqsa University.
Paying more attention to the concept of digital
fluency by the administration of Al-Aqsa
University, and working on developing a strategy to
raise the efficiency of its employees in a technical
way.
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[2] American Association of University Women
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