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2022, Vol. 9, No. 2, pp. 190-208 

 
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Investigation of Pre-service Teachers’ Readiness Levels for Online 
Learning and Engagement Levels in the Online Environment 

Gülçin Zeybek 

Karamanoğlu Mehmetbey University, Turkey 

Abstract: The aim of this study was to examine pre-service teachers’ readiness levels for online learning 
and engagement levels in the online environment in terms of various variables and to determine the 
relationship between readiness levels for online learning and engagement levels in the online 
environment. The design of the research is the correlational survey model, one of the quantitative research 
designs. The study group of the research consisted of pre-service teachers who were studying in the 
faculty of education at a state university in Turkey. In the study, a personal information form, the “Online 
Learning Readiness Scale” and the “Student Engagement Scale” were used as measurement tools. Within 
the framework of quantitative data analysis, descriptive statistical techniques, Mann-Whitney U test, 
Kruskal-Wallis H test and Pearson correlation technique were used. When the research findings were 
examined, it was seen that the pre-service teachers’ readiness for online learning was high in all 
dimensions; when it comes to engagement in the online environment, it was observed that they obtained 
high mean scores in the total scale, and the behavioural engagement and cognitive engagement 
dimensions, while they obtained a moderate mean score in the affective engagement dimension. In 
addition, it is one of the important results of the study that there was a medium-level, positive and 
significant relationship between pre-service teachers’ readiness levels for online learning and engagement 
levels in the online environment. 

Keywords: online learning, readiness, student engagement, online environment. 

Introduction 
With the introduction of computers and networks into our lives, developments and changes occur in 
many areas and make their presence felt in society. According to the Digital 2021 Turkey report, 70% 
of Turkey's population actively uses social media, 77% uses the internet actively, and mobile 
connection usage is around 90%. While we use the internet for about eight hours and social media for 
about three hours on a daily basis, our TV watching time is around three hours (Dijilopedi, 2021). One 
of the areas where changes are experienced most intensely is the field of education and training. 
Technological developments have brought many changes in the way we learn, as in many of our 
habits; teaching and learning has become possible through new technologies and the internet, beyond 
the classroom environment. In this period, when digital communication opportunities are increasing 
day by day, it is mentioned that there are new tools that facilitate various learning styles and that can 
be used in classroom and virtual environments (Ünlü, 2019; Sarıtaş & Barutçu, 2020). 

Online learning has become widespread in many educational institutions due to its availability 
regardless of geographical location, its low cost, and the flexibility it provides to both students and 
teachers (O'Lawrence, 2005; Oliveira et al., 2018). In recent years, higher education institutions have 



 191 

been providing access to course materials and course programs over the internet, and the application 
areas of online learning activities are becoming more widespread day by day. From both a 
pedagogical and technical perspective, the field of online learning is rapidly changing and evolving. 
Researchers are expanding the concepts of what knowledge, skills, and attitudes are necessary for the 
success of online learning (Watkins et al., 2004). One of the variables that are highly effective in the 
success of online learning activities is students' readiness for online learning (Oliver, 2001). As online 
learning or internet-based distance learning has become more common recently, many professionals 
have begun to question whether distance education students are ready to succeed in this environment 
(Watkins & Corry, 2004). 

If individuals are not satisfied with the technology they use and do not feel ready to use it, then they 
avoid using this technology. For this reason, as new technologies emerge, it is important to measure 
the readiness level of the people who will use them (Lin & Hsieh, 2007). Since distance education is 
carried out with technological support, it is important to measure the readiness of the individuals who 
will receive this education. 

Readiness for Online Learning 
Readiness for online learning has been defined differently by various researchers. According to Smith 
(2005), readiness for online learning is “the state of having the motivation for learning, the necessary 
technological skills, the learning style and the knowledge, skills and beliefs necessary to manage one’s 
own learning in the online environment”. According to Warner et al. (1998), readiness for online 
learning consists of three dimensions: “preferring online learning to face-to-face learning, the 
individual’s self-confidence in using the internet and computer technologies to fulfill his/her learning 
tasks, and the student’s ability to take responsibility for his/her own learning in the online learning 
environment”. According to Oliver (2001), readiness for online learning is a structure consisting of 
“ability to use technological tools, access to technological tools, technology literacy and self-regulatory 
learning dimensions”. Choucri et al. (2003) described online readiness as “the ability to demonstrate 
competence in the use of e-resources such as the internet”; on the other hand, Borotis and 
Poulymenakou (2004) evaluated readiness for online learning in terms of “mental and physical 
readiness for online learning experience and action”. Hung et al. (2010) discussed online learning 
readiness with the dimensions of self-directed learning, online learning motivation, learner control, 
computer/internet self-efficacy, and online communication self-efficacy. Because of the use of the scale 
developed by Hung et al. (2010) in this study, these sub-dimensions were taken into account. 

In addition to student readiness in the use of online learning environments, ensuring continuity is a 
basic requirement in achieving the intended use of these learning environments. It is possible to say 
that learning begins and continues when students spend enough time in online learning 
environments, ensure adequate engagement, and interact with the content, teacher or peers (Dağhan 
& Akkoyunlu, 2016). In some studies conducted in recent years, it has been noticed that it is necessary 
to focus on the continuity of use behavior rather than the short-term use of various learning 
environments (Alraimi et al., 2015; Chen et al., 2015). It is considered important to increase the 
engagement of learners in learning environments in order for them to continue working despite the 
difficulties they face and to ensure their engagement in the environment (Ergün & Kurnaz, 2017). 

 



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Student Engagement 
The effort and time students spend in the learning environment is called student engagement. 
Students with a high level of engagement strive not only to obtain grades, but also to do more with 
what they learn (Kuh, 2009). According to Fredricks et al. (2004), there are three types of engagement: 
behavioural, affective, and cognitive. Behavioural engagement refers to various types of behaviour 
such as engagement in academic or non-academic school activities; it generally includes academic, 
social and extracurricular involvement. This kind of engagement is important in preventing decreased 
attendance or withdrawal from the course and in gaining the expected academic outcomes. Affective 
engagement refers to all emotional reactions of students in the classroom such as interest, happiness, 
sadness and distress (Stipek, 2002); in other words, it generally includes positive and negative 
judgments about the school, academics, classmates, and teachers. Affective engagement is estimated 
to affect the willingness to do a job or establish a bond with an institution. Cognitive engagement 
includes the student’s willingness to put forth the necessary effort to grasp complex ideas and difficult 
skills; it is considered as a psychological investment in learning (Ergün & Kurnaz, 2017). In this study, 
engagement in online learning has three dimensions: behavioural, affective, and cognitive. The 
emotional, behavioural and cognitive aspects of engagement play an important role in the learning 
process and social development. Student engagement includes attention, focus, belief, interest and 
emotions that successfully motivate students to practise higher levels of critical thinking skills and 
foster meaningful learning experiences to achieve course learning goals and progress in their 
education (Yehya, 2020). Active student engagement is always a challenge for educators, regardless of 
teaching methods, and this degree of difficulty increases significantly in distance/online learning 
(Ahshan, 2021). 

Today, especially after the corona virus epidemic, online teaching has become a common teaching tool 
in educational institutions at all levels. However, in order for online learning to achieve its purpose 
and be effective, it is important to question whether students are ready to be successful in the online 
learning environment, and their level of engagement. 

This study is considered important in terms of determining the level of preparation for online 
learning, drawing attention to this issue, revealing the current situation and the need for 
improvement. 21st-century teachers will not assume traditional teacher roles in online or face-to-face 
education but will rather take on the role of facilitating learning and raising productive generations in 
education where students are at the centre (Çatana Kuleli, 2018). It is expected that the findings 
obtained from this research will be useful in drawing the attention of institutions and individuals who 
prepare and implement teacher training programmes, and authors and bookstores who prepare books 
for teacher candidates, to the need for online learning readiness. In addition, it is expected that the 
results of the research will affect the prospective teachers’ awareness of the role of the 21st-century 
teacher and enable them to organise their studies in order to develop these skills in their own 
education and will shed light on new studies of other researchers in the field. 

In the literature, there are studies showing that online learning readiness and student participation are 
important in creating positive learning outcomes or achieving academic success in online learning 
environments (Carini et al., 2006; Çakır & Horzum, 2015; Demir & Horzum, 2013; Demiralay et al., 
2016; Hung, 2016; Junco, 2012; Junco et al., 2011; Kuh, 2009; Latheef et al., 2021; McKeithan et al., 2021; 
Vayre & Vonthron, 2018). 



 193 

Although there are studies examining these two cases (readiness for online learning and engagement 
in the online environment) separately in the literature, no study has been found that addresses the 
relationship between them. Based on these explanations, this study aims to determine pre-service 
teachers’ readiness for online learning and their online engagement levels, to examine these 
dependent variables in terms of different variables, and to determine the relationship between pre-
service teachers’ online learning readiness levels and online engagement levels.  

The internet, which is increasing in prevalence, is used by more than 65% of the world’s population 
(Internet Users, 2021). With the rapid advancement of technology, the areas of access to the internet 
have also increased. Internet access is available from notebooks, tablets and mobile phones (Durmuş 
et al., 2018). Internet access and mobile technology ownership are rapidly spreading in Turkey and the 
world, and the usage time of these technologies is also increasing. In order not to lag behind in the 
digital age, most countries develop policies for the use and expansion of the internet and mobile 
technologies, which have a vital role in information production. This is especially true of mobile 
technology and the use of the internet, which reaches down to very young ages, and also leads to a 
search for opportunities in the field of education (Güler et al., 2017). Based on this information, the 
dependent variables of the research were also examined in terms of internet usage time and 
engagement in online courses. In this regard, the sub-problems of the research are stated below: 

1. What is the readiness level of pre-service teachers for online learning? 
2. Do pre-service teachers’ readiness levels for online learning differ significantly according to 

their average weekly internet usage time? 
3. Do pre-service teachers’ readiness levels for online learning differ significantly according to 

the tools they use to attend online classes? 
4. What is the level of engagement of pre-service teachers in the online environment? 
5. Do pre-service teachers’ online engagement levels differ significantly according to their 

average weekly internet usage time? 
6. Do pre-service teachers’ levels of engagement in the online environment differ significantly 

according to the tools they use to participate in online courses? 
7. Is there a significant relationship between pre-service teachers’ readiness for online learning 

and their level of engagement in the online environment? 

Methods 
Research Design 

The design of this research is the correlational survey model, one of the quantitative research designs. 
Correlational survey models are research models that aim to determine the existence and degree of co-
change between two or more variables. In this type of research, three different situations may arise 
when trying to find out whether the variables change together: there is no significant relationship 
between the two variables, the variables are proportional in the same direction (positive), or the 
variables are proportional in the opposite direction (negative) (Karasar, 2009). Since the main purpose 
of this study is to determine the relationship between pre-service teachers’ readiness for online 
learning and their level of engagement in the online environment, the research design was determined 
as a correlational survey model. 



 194 

Sample 

The study group of the research consisted of pre-service teachers who were studying in the faculty of 
education at a state university in Turkey. While creating the sample, reaching pre-service teachers 
studying in different branches and at different grade levels was tried. The study was carried out in the 
academic year 2020-2021. The students participating in the study have been studying via distance 
education since the middle of the 2019-2020 Spring semester due to the COVID-19 pandemic. In the 
period when the study was conducted, distance courses were conducted through a Learning 
Management System called ALMS. Therefore, the participants of the research have taken online 
courses before and are still taking them. 

The distribution of the study group according to various demographic characteristics is given in Table 
1. 

Table 1: Distribution of Pre-Service Teachers According to their Demographic Characteristics 
Gender f % 
Female 169 74.4 
Male 58 25.6 
Total 227 100 
Branch   
Primary school teaching 12 5.3 
Middle school mathematics teaching 26 11.5 
Pre-school teaching 76 33.5 
Guidance and psychological counseling 113 49.8 
Total 227 100 
Grade level   
1st grade 84 37.0 
2nd grade 115 50.7 
3rd grade 19 8.4 
4th grade 9 4.0 
Total 227 100 
Average internet usage time per week   
0-7 hours 134 59.0 
8-14 hours 55 24.2 
15 hours and over 38 16.7 
Total 227 100 
Online course attendance tool   
Desktop/laptop 149 65.6 
Mobile device 78 34.4 
Total 227 100 

Measurement Tools 

In the research, an individual information form was prepared by the researcher in order to collect the 
demographic information of the pre-service teachers. In the individual information form, the gender 
of the pre-service teacher (female/male), the branch where he/she was studying (primary school 



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teaching, middle school mathematics teaching, pre-school teaching, guidance and psychological 
counseling), the grade he/she was studying (1/2/3/4), the average weekly internet usage time (0-7 
hours/8-14 hours/15 hours and over) before starting the online lessons, and the tool used for 
participating in online lessons (desktop-laptop/mobile device) were included. 

In the study, the Online Learning Readiness Scale developed by Hung et al. (2010) and adapted into 
Turkish by Yurdagül and Alsancak Sırakaya (2013) was used in order to determine the readiness 
levels of pre-service teachers for online learning. The process of obtaining the Turkish version of the 
scale was carried out with 13 field and language experts, and the application process was carried out 
with 724 students from five different universities. Within the scope of the adaptation study, the five-
factor relational model was tested as in the original scale, the GFI value was 0.94, CFI was 0.94, NFI 
was 0.92, and a perfect fit was obtained, where the Turkish scale could measure five interrelated 
factors as in the original scale. These factors were: computer and internet self-efficacy, self-directed 
learning, learner control, learner motivation, and online communication self-efficacy. As a result of the 
factor analysis of the data obtained from the paper-pencil application of the Turkish version of the 
scale, the correlations of 18 items in five different sub-dimensions gave significant results. As a result 
of the confirmatory factor analysis, the standardised factor loadings of the five different sub-
dimensions of the online readiness structure of the scale items were found to range between 0.60 and 
0.90, and they were found to be statistically significant according to the t values in the parametric test. 
In addition to this, the mean square root of variance explained for all dimensions of the scale was 
greater than 0.50 and was greater than its correlation with other dimensions. The construct validity 
study on the correlations between the sub-dimensions and the mean explained variance values 
yielded positive results. These results show that the Turkish version of the Learner Readiness Scale for 
Online Learning is a valid and reliable measurement tool (Yurdugül & Alsancak Sırakaya, 2013). 

In the study, the Student Engagement Scale developed by Sun and Rueda (2012), and adapted into 
Turkish by Ergün and Koçak Usluel (2015), was used in order to determine the level of engagement of 
pre-service teachers in the online environment. The adaptation study was carried out with 398 
students who answered the scale. First and second level confirmatory factor analyses were performed 
for construct validity studies of the scale, and the internal consistency coefficient was calculated for 
reliability studies. As a result of the confirmatory factor analysis, it was found that the model related 
to the 19-item scale consisting of three factors, namely, behavioural, cognitive and affective 
engagement, showed a good fit. The reliability coefficients of the factors in the scale ranged between 
.62 and .90. The item-total correlations of the items in the scale were calculated between .265 and .658. 
The analyses showed that the Turkish version of the scale is a valid and reliable measurement tool. 

Data Collection and Analysis 

Necessary permissions were obtained before the data related to the research were collected, and the 
data were collected from volunteer pre-service teachers who were willing to participate in the study. 
At the beginning of the data collection process, the purpose of the study was explained to the 
participants, the instructions for filling in the scales were shared with them, and they were asked to 
answer the scale items sincerely and objectively. In addition, it was stated that the responses to the 
scales would not be used for any purpose other than the scope of the research. Later, data collection 
tools were transferred to the virtual environment and an internet access address was given so that pre-
service teachers could answer using these tools. All of the pre-service teachers in the study group 



 196 

filled in the scale items completely. The application of the scales to the pre-service teachers was 
completed in approximately two weeks. The collected data were transferred to the computer 
environment in order to prepare them for analysis, and the analyses were carried out. Within the 
framework of quantitative data analysis, descriptive statistical techniques, the Mann-Whitney U test, 
the Kruskal-Wallis H test for independent samples and the Pearson correlation technique were used. 

The Kolmogorov-Smirnov and Shapiro-Wilk tests were used to determine whether the distributions of 
the measurements related to the dependent variables were normal for the statistical techniques to be 
applied in the research. Since the statistical (null) hypothesis in the analysis was established as “the 
distribution of scores does not differ significantly from the normal distribution”, the calculated p 
value being greater than α=.05 is interpreted as the fact that the scores do not deviate excessively from 
the normal distribution at this significance level and that that the distribution is suitable for the use of 
parametric tests (Büyüköztürk, 2007). Accordingly, it was observed that the distribution of the 
measurements related to the dependent variables did not show a normal distribution in terms of the 
average weekly internet usage time and the tools for participating in online courses (α < .05). Based on 
this finding, the Mann-Whitney U and Kruskal-Wallis H tests, which are non-parametric tests, were 
used for the variables mentioned. 

Findings 
Descriptive statistical techniques were used to determine the readiness levels of pre-service teachers 
participating in the research for online learning, and the results are presented in Table 2. 
Table 2: Pre-Service Teachers’ Readiness Levels for Online Learning 
Factors n x̄ SD Min Max 
Computer self-efficacy 227 11.55 1.92 3.00 15.00 
Self-directed learning 227 19.08 2.56 11.00 25.00 
Learner control 227 10.51 1.75 5.00 15.00 
Learner motivation 227 15.31 2.07 8.00 20.00 
Communication self-efficacy 227 11.03 2.02 5.00 15.00 
Total 227 67.47 7.02 40.00 85.00 

When Table 2 is examined, the total mean scores of the pre-service teachers participating in the 
research for readiness for online learning are observed as (x̄ = 67.47); the computer self-efficacy mean 
score is observed as (x̄ = 11.55); the self-directed learning mean score is observed as (x̄ = 19.08); the 
learner control mean score is observed as (x̄ = 10.51); the learner motivation mean score is observed as 
(x̄ = 15.31); and the communication self-efficacy mean score was observed as (x̄ = 11.03). Considering 
the min-max score range of the relevant scale, it can be said that the participants obtained high mean 
scores. 

The Kruskal-Wallis H test was applied in order to determine whether the online learning readiness 
levels of the pre-service teachers participating in the research differed significantly according to the 
average weekly internet usage time before starting the online learning applications, and the results are 
presented in Table 3. 

 



 197 

 

Table 3: Kruskal-Wallis H Test Results for Pre-Service Teachers’ Readiness for Online Learning 
According to Internet Usage Time 

When Table 3 is examined, it is seen that the level of readiness for online learning of the pre-service 
teachers participating in the research does not differ significantly depending on the average time of 
weekly internet use; however, there is a significant difference in the sub-dimensions of “self-directed 
learning” [X2 = 6.997, p ≤ 0.05] and “learner control” [X2 = 6.625, p ≤ 0.05]. In both dimensions, the mean 
scores of the participants whose average weekly internet use was 0-7 hours were higher than those 
who had 8-14 hours of weekly internet use and 15 hours or more. 

The Mann-Whitney U test was applied to determine whether the online learning readiness levels of 
the pre-service teachers participating in the research differed significantly according to the tools they 
used while participating in online learning, and the results are presented in Table 4. 

 

 

 

Factor Period n Mean Rank df X2 p 

Computer self-
efficacy 

0-7 hours 134 111.34 2 .863 .649 
8-14 hours 55 120.74    
15 hours and over 38 113.64    
Total 227     

Self-directed 
learning 

0-7 hours 134 122.27 2 6.997 .030 
8-14 hours 55 109.46    
15 hours and over 38 91.41    
Total 227     

Learner control 

0-7 hours 134 123.05 2 6.625 .036 
8-14 hours 55 98.53    
15 hours and over 38 104.49    
Total 227     

Learner motivation 

0-7 hours 134 115.63 2 .429 .807 
8-14 hours 55 114.25    
15 hours and over 38 107.89    
Total 227     

Communication 
self-efficacy 

0-7 hours 134 115.20 2 .291 .865 
8-14 hours 55 114.62    
15 hours and over 38 108.88    
Total 227     

Total 

0-7 hours 134 119.41 2 2.664 .264 
8-14 hours 55 109.93    
15 hours and over 38 100.80    
Total 227     



 198 

Table 4: Mann-Whitney U Test Results for Pre-Service Teachers’ Readiness for Online Learning 
According to the Tools they used while Participating in Online Learning 

Factor Tool n Mean Rank 
Sum of 
Ranks U p 

Computer self-
efficacy 

Desktop/laptop 149 120.18 17906.50 4890.50 .042 
Mobile device 78 102.20 7971.50   
Total 227     

Self-directed 
learning 

Desktop/laptop 149 116.50 17359.00 5438.00 .424 
Mobile device 78 109.22 8519.00   
Total 227     

Learner control 
Desktop/laptop 149 110.52 16468.00 5293.00 .262 
Mobile device 78 120.64 9410.00   
Total 227     

Learner motivation 
Desktop/laptop 149 118.46 17651.00 5146.00 .148 
Mobile device 78 105.47 8227.00   
Total 227     

Communication 
self-efficacy 

Desktop/laptop 149 113.70 16941.50 5766.50 .923 
Mobile device 78 114.57 8936.50   
Total 227     

Total 
Desktop/laptop 149 116.46 17352.00 5445.00 .435 
Mobile device 78 109.31 8526.00   
Total 227     

When Table 4 is examined, it is seen that the level of readiness for online learning of the pre-service 
teachers participating in the research does not differ significantly depending on the tools they used 
while participating in online learning; however, there is a significant difference in the “computer self-
efficacy” [U = 4890.50, p ≤ 0.05] sub-dimension. The “computer self-efficacy” mean scores of the 
participants who attended online courses via desktop/laptop computers are higher than those who 
attended via mobile devices. 

Descriptive statistical techniques were used to determine the level of engagement in the online 
environment of pre-service teachers participating in the research, and the results are presented in 
Table 5. 

Table 5: Level of Engagement of Pre-Service Teachers in the Online Environment 

Factors n x̄ SD Min Max 
Behavioral engagement 227 19.04 2.84 8.00 25.00 

Affective engagement 227 17.91 4.33 6.00 29.00 

Cognitive engagement 227 31.18 4.18 16.00 40.00 

Total 227 68.12 8.89 42.00 89.00 

When Table 5 is examined, the total mean scores for online engagement of the pre-service teachers 
participating in the research are observed as (x̄ = 68.12); the behavioural engagement mean score is 
observed as (x̄ = 19.04); the affective engagement mean score is observed as (x̄ = 17.91); and the 



 199 

cognitive engagement mean score is observed as (x̄ = 31,18). When the min-max score range of the 
relevant scale is taken into account, the participants obtained high mean scores in the total scale and 
the behavioural engagement and cognitive engagement dimensions; in the affective engagement 
dimension, however, it was seen that they obtained a moderate mean score. 

The Kruskal-Wallis H test was applied to determine whether the levels of engagement in the online 
environments of the pre-service teachers participating in the research differed significantly according 
to the average weekly internet usage times before starting the online learning applications, and the 
results are presented in Table 6. 

Table 6: Kruskal-Wallis H test Results for Pre-Service Teachers’ Online Engagement Levels According to 
their Internet Usage Time 

When Table 6 is examined, it is seen that the levels of online engagement of the pre-service teachers 
participating in the research differs significantly depending on their average weekly internet usage 
time [X2 = 6.583, p ≤ 0.05]; in addition, there was a significant difference in the sub-dimensions of 
“behavioral engagement” [X2 = 6,905, p ≤ 0.05] and “cognitive engagement” [X2 = 6.389, p ≤ 0.05]. 
Considering the aforementioned sub-dimensions and total scores, it is seen that the participants with 
0-7 hours of internet usage obtained the highest mean scores, while the participants whose internet 
usage time was 15 hours or more obtained the lowest mean scores. 

The Mann-Whitney U test was applied to determine whether the online engagement levels of the pre-
service teachers participating in the research differed significantly according to the tools they used 
while participating in online learning, and the results are presented in Table 7. 

 

 

 

 

Factor Period n Mean Rank df X2 p 

Behavioral 
engagement 

0-7 hours 134 122.22 2 6.905 .032 
8-14 hours 55 109.53    
15 hours and over 38 91.49    
Total 227     

Affective 
engagement 

0-7 hours 134 119.99 2 2.797 .247 
8-14 hours 55 104.00    
15 hours and over 38 107.36    
Total 227     

Cognitive 
engagement 

0-7 hours 134 122.85 2 6.389 .041 
8-14 hours 55 104.77    
15 hours and over 38 96.16    
Total 227     

Total 

0-7 hours 134 123.24 2 6.583 .037 
8-14 hours 55 102.53    
15 hours and over 38 98.04    
Total 227     



 200 

Table 7: Mann-Whitney U Test Results for Pre-Service Teachers’ Online Engagement Levels According 
to the Tools they used while Participating in Online Learning 

Factor Tool n Mean Rank 
Sum of 
Ranks U p 

Behavioral 
engagement 

Desktop/laptop 149 122.76 18291.50 4505.50 .005 
Mobile device 78 97.26 7586.50   
Total 227     

Affective 
engagement 

Desktop/laptop 149 115.12 17153.00 5644.00 .721 
Mobile device 78 111.86 8725.00   
Total 227     

Cognitive 
engagement 

Desktop/laptop 149 120.39 17937.50 4859.50 .042 
Mobile device 78 101.80 7940.50   
Total 227     

Total 
Desktop/laptop 149 120.49 17953.00 4844.00 .039 
Mobile device 78 101.60 7925.00   
Total 227     

When Table 7 is examined, it is seen that the level of engagement in the online environment of the pre-
service teachers participating in the research differs significantly depending on the tools they used 
while participating in online learning [U = 4844.00, p ≤ 0.05]; in addition, there is a significant 
difference in the sub-dimensions of “behavioral engagement” [U = 4505.50, p ≤ 0.05] and “cognitive 
engagement” [U = 4859.50, p ≤ 0.05]. When the aforementioned sub-dimensions and total scores are 
examined, it is seen that the mean scores of the participants who attended online courses via 
desktop/laptop computers are higher than those who attended via mobile devices. 

Pearson correlation technique was applied to determine whether there was a significant relationship 
between pre-service teachers’ readiness for online learning and their level of engagement in the online 
environment, and the results are presented in Table 8. 

 

 

 

 

 

 

 

 

 

 

 

 



 201 

Table 8: The Relationship between Pre-Service Teachers’ Readiness for Online Learning and their Online 
Engagement Levels 

  

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Computer self-
efficacy 
 

Pearson Correlation .369 .064 .225 .255 
Sig. (2-tailed) .000 .339 .001 .000 
N 227 227 227 227 

Self-directed 
learning 
 

Pearson Correlation .491 .213 .583 .535 
Sig. (2-tailed) .000 .001 .000 .000 
N 227 227 227 227 

Learner control 
 

Pearson Correlation .546 .367 .486 .581 
Sig. (2-tailed) .000 .000 .000 .000 
N 227 227 227 227 

Learning motivation 
 

Pearson Correlation .454 .343 .477 .536 
Sig. (2-tailed) .000 .000 .000 .000 
N 227 227 227 227 

Communication 
self-efficacy 
 

Pearson Correlation .379 .134 .334 .343 
Sig. (2-tailed) .000 .043 .000 .000 
N 227 227 227 227 

Readiness for 
online learning 

Pearson Correlation .659 .327 .632 .667 
Sig. (2-tailed) .000 .000 .000 .000 
N 227 227 227 227 

When Table 8 is examined, it is seen that there is a moderate, positive and significant relationship 
between pre-service teachers’ readiness for online learning and their online engagement levels (r = 
.667, p ≤ 0.05). Accordingly, it can be said that as the pre-service teachers’ readiness for online learning 
increased, their level of engagement in the online environment also increased. In addition, it was 
observed that there was a positive and significant relationship between the dimensions of readiness 
for online learning and the dimensions of learner engagement in the online environment (p ≤ 0.05). 

Discussion, Conclusion and Suggestions 
When the research findings are examined, it is seen that the pre-service teachers’ readiness for online 
learning was high in all dimensions; when it comes to engagement in an online environment, it was 
observed that they obtained high mean scores in the total scale and behavioural engagement and 
cognitive engagement dimensions, while they obtained a moderate mean score in the affective 
engagement dimension. When the relevant literature was examined, it was seen that similar results 
were obtained in various studies (Chung et al., 2020a; Chung et al., 2020b; Küsel et al., 2020; 
Priyadarshini & Bhaumik, 2020). 

When the research findings are examined, it is seen that the level of readiness for online learning of 
the pre-service teachers participating in the research does not differ significantly depending on the 
average weekly internet usage time; however, it is observed that there is a significant difference in the 
sub-dimensions of “self-directed learning” and “learner control”. In both dimensions, the mean scores 



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of the participants whose average weekly internet usage was 0-7 hours were higher than those with 8-
14 hours of average weekly internet use and 15 hours or more. The internet usage time mentioned 
here is the time that the participants spent on the internet before starting their online courses; it does 
not refer to education and training. Therefore, it is necessary to look at the internet usage purposes of 
today’s youth as well as the internet usage period. Knowles (1975) describes self-directed learning as 
individuals taking initiative in understanding their own learning needs, setting goals for themselves, 
finding the necessary resources for learning, determining appropriate learning strategies, and 
evaluating their own learning; Garrison (1997) defined it as the ability of students to take individual 
responsibility in determining learning outcomes, cognitive processes and self-management processes. 
Learner control, on the other hand, is the dimension of a student’s directing his/her own learning 
experience and process (Shyu & Brown, 1992). In the 21st century, individuals do not use the internet 
only to perform some transactions that will facilitate their daily work. They use it mostly for 
entertainment and having a good time, and spend serious time in social media (İnce & Koçak, 2017). 
Social media constitutes an important part of internet use among young people (Obee, 2012). While 
the internet is used for the purposes of education, obtaining information and sharing, unintended and 
long-term use of the internet may occur due to the convenience it provides (Yılmazsoy & Kahraman, 
2017). According to the data of the Turkish Statistical Institute (2016), between the years 2013-2016, the 
internet was mostly used by the 16-74 age group for creating a profile on social media, sending 
messages or photos, etc. As their use of the internet of this kind increases, they have less time to plan 
their own learning, set learning goals, manage learning, reflect on all these and spend time on them. 
For this reason, it is a normal result of the research that the participants who had less internet usage 
time obtained higher mean scores for“self-directed learning” and “learner control”. 

According to another finding of the study the participants’ online learning readiness levels differed 
significantly in the “computer self-efficacy” sub-dimension, depending on the tools they used while 
participating in online learning. The “computer self-efficacy”mean scores of the participants who 
attended online courses via desktop/laptop computers were higher than those who attended via 
mobile devices. According to a study conducted by Google Inc. (2013), it was found that in Turkey, 
91% of internet usage via smart phone is for entertainment, 84% is for communication, and 68% is for 
the purpose of obtaining information. The use of social media with voice or video calls over the 
internet has increased over the years, and the rate of information usage has decreased over the years 
(Güler et al., 2017). In this case, it can be interpreted that individuals who participate in online 
learning by using desktop/laptop computers use personal computers for learning more than 
individuals who participate in online learning using mobile devices, and thus their computer skills are 
improved more. 

When the research findings were examined, it was seen that the levels of online engagement of the 
pre-service teachers participating in the research differed significantly depending on the average 
weekly internet usage time, and that there was also a significant difference in the sub-dimensions of 
“behavioural engagement” and “cognitive engagement“. Considering the aforementioned sub-
dimensions and total scores, it is seen that the participants with 0-7 hours of internet usage obtain the 
highest mean scores, while the participants whose internet usage time was 15 hours or more obtain 
the lowest mean scores. Behavioural engagement includes behaviours such as obeying the rules, 
solving the problems encountered, making an effort to learn, being able to pay attention to the lesson 



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and continuing and completing the given tasks on time. Cognitive engagement includes doing 
research from different sources on subjects related to the course, questioning the information obtained 
while doing this, controlling the tasks performed, working without worrying about grades, and 
spending time and effort on learning. As stated before, today’s youth use the internet mostly for 
communication and entertainment purposes. Individuals who spend a long time on the internet for 
non-teaching purposes will have difficulty finding enough time and energy to participate in 
behavioural and cognitive terms. The fact that as the duration of internet use of the participants 
increased, their engagement in the learning environment decreased can be explained by these factors. 

According to another finding of the study, the level of engagement of the participants in the online 
environment differed significantly depending on the tools for participating in online learning; in 
addition, it was observed that there was a significant difference in the sub-dimensions of “behavioral 
engagement” and “cognitive engagement”. When the aforementioned sub-dimensions and total 
scores are examined, it is seen that the mean scores of the participants who attended online courses 
via desktop/laptop computers are higher than those who attended via mobile devices. In the age we 
live in, it is known that students mostly use their mobile devices to communicate, use social networks, 
browse the internet and have fun, and that they use computers when it comes to studying and doing 
homework. For this reason, it is normal for students who participate in online learning via 
desktop/laptop to have higher levels of engagement than those who participate via mobile devices. 

According to the last finding of the study, it was seen that there was a moderate, positive and 
significant relationship between the readiness level of pre-service teachers for online learning and 
their level of online engagement. Accordingly, it can be said that as the pre-service teachers’ readiness 
for online learning increased, their level of engagement in the online environment also increased. In 
addition, it was observed that there was a positive and significant relationship between all dimensions 
of readiness for online learning and all dimensions of online learner engagement. It is known that 
readiness to learn creates motivation, enables self-directed learning, and in this way, increases learner 
engagement and ensures continuity. It can be said that the significant relationship between the two 
mentioned variables may have arisen from these factors. 

Universities had to change their teaching practices and provide the necessary technical infrastructure 
due to the COVID-19 pandemic. However, having a good technical background does not mean that 
everyone is ready to use it (Küsel et al., 2020). Evaluating students’ readiness for online learning is an 
issue that many educational institutions and educators need to analyse. Students’ readiness for online 
learning is not only related to technical skills in using computers, mobile devices and the internet, but 
also to how students perceive online teaching and their learning preferences. When it comes to 
readiness for online learning, all these variables should be considered together (Smith, 2005). 

Student engagement is considered important for learners to continue working despite the difficulties 
they face and to focus on the subject. Studies show that students have high dropout rates in online 
learning environments. These rates can reach up to 90% in Massive Open Online Course platforms 
where students register voluntarily, unlike in compulsory education (Rivard, 2013). For this reason, 
factors such as the grading of students on these platforms and the effectiveness of their attendance in 
the course should be considered. Online learner engagement and interpersonal interactions with 
instructors and fellow students can improve student performance and also reduce student attrition 
rates (Soffer & Cohen, 2019). Instructors in higher education should maximise student engagement to 



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develop high-quality learning experiences in online environments (Fallahi, 2019; Weidlich & 
Bastiaens, 2018). Based on all these reasons, besides ensuring the readiness of students for online 
learning, it is considered very important to take measures to increase their engagement in their course 
and learning. 

Hergüner et al. (2020) revealed that students’ online learning attitudes have a positive effect on their 
readiness for online learning. Therefore, in order to provide the learner with good online learning, it is 
an important need to create a positive online learning attitude. Research findings by Aguilera-
Hermida (2020) revealed that attitude, motivation, self-efficacy and technology use play an important 
role in students’ cognitive engagement and academic performance. In the study conducted by 
Erdoğdu and Çakıroğlu (2021), the positive effect of humour elements in online materials on 
increasing behavioural, cognitive and emotional engagement was observed. In the study conducted 
by Petillion and McNeil (2020), open communication and flexible teaching and assessment methods 
are recommended to ensure student engagement. Online learning can provide an active social 
presence that encourages meaningful interactions with content and peers through active discussions, 
collaborative learning opportunities, group conferences, problem-based learning, and simulations that 
require students to apply new learning in real-life settings (Weidlich & Bastiaens, 2018). Effective and 
meaningful teacher and peer interactions are essential to foster engagement for students (Moore & 
Shemberger, 2019). It may be possible to foster quality engagement through strong teacher/student 
interaction and meaningful student/student interaction. In order to increase emotional, social and 
cognitive engagement, it is necessary to understand the emotional skills and abilities students need, 
interact with students, enable them to become computer and media literate, which allows them to use 
online learning without technical difficulties, support students to network and share experiences with 
other students, and create technological collaborations. 

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Author: 
Gülçin Zeybek is an Assistant Professor at Karamanoğlu Mehmetbey University. Email: gozkan80@hotmail.com 

Cite this paper as: Zeybek, G. (2022). Investigation of pre-service teachers’ readiness levels for online learning 
and engagement levels in the online environment. Journal of Learning for Development, 9(2), 190-208.