International Review of Research in Open and Distributed Learning

Volume 22, Number 1

February - 2021

 

The Impact of Demographic Characteristics on Academic Performance: Face-to-Face Learning Versus Distance Learning Implemented to Prevent the Spread of COVID-19

 

Ghaleb A. El Refae1, Abdoulaye Kaba2, and Shorouq Eletter1
1College of Business, Al Ain University, Al Ain, United Arab Emirates, 2College of Education, Humanities and Social Sciences, Al Ain University, Al Ain, United Arab Emirates

 

Abstract

The spread of COVID-19 presents an opportunity for many educational institutions to implement distance learning and ensure the provision of educational resources and services, secure income and revenues, and contribute to the control and prevention of the coronavirus. This study was conducted to investigate the impact of demographic characteristics on academic performance. Students’ grades and grade point averages (GPA) were collected from the Admission and Registration Unit, Al Ain University in Al Ain, United Arab Emirates. The data were used to measure academic performance in face-to-face (F2F) learning and distance learning (DL) implemented by the university to prevent the spread of COVID-19. Statistical analysis including the Mann-Whitney test, Spearman’s rho test, and a regression test were used to answer research questions and verify hypotheses. Students demonstrated better academic performance in DL than F2F learning. It was found that the number of weak students in F2F learning dropped sharply by more than 11% in DL. Demographic characteristics demonstrated a significant impact on students’ academic performance and predicted at least 7.4% variation in F2F learning and DL. Findings of the study support the model developed by Tinto (1975) which proposed the impact of student’s attributes, experiences, and family backgrounds on academic performance. The findings suggest non-DL institutions should continue offering DL side-by-side with F2F learning programs.

Keywords: demographic characteristics, academic performance, face-to-face learning, distance learning, coronavirus, COVID-19

Introduction

Educational institutions can be categorized as distance learning (DL), blended learning, or traditional or face-to-face (F2F) learning institutions. At DL institutions, learning takes place without physical presence (Cheawjindakarn et al., 2012), while blended or hybrid learning institutions combine traditional classroom teaching with educational technologies (Kamalluarifin et al., 2018). Traditional learning institutions rely on learning activities and instruction in the classroom without the use of online learning and instructions (Elfaki et al., 2019).

Regardless of the types of educational institutions, the spread of COVID-19 is presenting opportunities and challenges for all types of academic institutions. For DL institutions, the business is as usual, with more opportunities and limited challenges. For blended learning institutions, the pandemic is an opportunity to improve DL tools and equipment, facilities and infrastructures, marketing strategies, and planning. However, for traditional learning institutions, the implementation of DL has been very challenging.

Like many other Gulf countries, the United Arab Emirates (UAE) decided from the beginning of the pandemic to implement DL as an alternative to traditional teaching. The decision was taken in the first week of March 2020 and required all educational institutions to close for four weeks, make necessary arrangements, and complete the academic year through DL. Accordingly, schools and higher academic institutions started delivering courses through DL in the last week of March 2020 (United Arab Emirates, The Ministry of Education, 2020; United Arab Emirates’ Government Portal, 2020). It is interesting to note that although Hamdan Bin Mohammed Smart University was the first accredited DL institution in the UAE, other academic institutions have been fully or partially implementing DL since before the spread of the coronavirus, including Al Ain University (Ati & Guessoum, 2010; Lavine & Croome, 2018).

Al Ain University (AAU) is licensed as F2F high education institution in UAE despite using many platforms and tools required for DL before the COVID-19 pandemic. These include Edu-Gate, Moodle, MS Teams, online registration, and a digital library. In fact, before the coronavirus outbreak, the university had been conducting online examinations for some courses every semester according to the examination timetables posted by the Admission and Registration Unit. The availability of these tools, services, and experiences is the key success factor in implementing DL for the first time in all courses offered during the second semester of the academic year 2019-2020.

Irrespective of learning styles and types of educational institutions, students’ academic performance can be influenced by a variety of factors such as demographic characteristics, learning environment, employment, and income. Prior studies have compared F2F learning to DL and explored the impact of demographic characteristics on academic performance (Zhao & Abuizam, 2015; Alghamdi et al., 2020). However, these studies were conducted before the spread of COVID-19 and mostly in Western countries (Bernard et al., 2004; Shachar & Neumann, 2010; Nortvig et al., 2018).

This study is an attempt to determine the impact of demographic characteristics on academic performance. According to Tinto (1975), demographic characteristics such as gender, level of study, and specialization play an important role in determining students’ academic performance, and this has been proven by many empirical studies (Ortega-Maldonado et al., 2017; Brubacher & Silinda, 2019). This study also compares academic performance in F2F learning with DL implemented for the first time by AAU to prevent the spread of COVID-19. It is the first study comparing F2F learning to DL at AAU. The results may be useful in understanding the impact of gender, college, and status of students on academic performance, and may be important in dealing with factors affecting academic performance. The study contributes to understanding F2F learning and DL in the Arab world as well as the impact of COVID-19 on academic institutions.

Review of Related Studies

A review of research on students’ academic performance in F2F learning and DL shows mixed results. In some studies, F2F outperformed DL (Ferguson & Tryjankowski, 2009; Christmann, 2017), while in others, DL outperformed F2F (Duffy et al., 2002; Elfaki et al., 2019). Additionally, there are studies that report no significant difference in students’ academic performance in DL as compared to F2F learning (Jahng et al., 2007; Smith, 2013; Paul & Jefferson, 2019).

Bernard et al. (2004) conducted a comprehensive meta-analysis of literature, reviewing 232 empirical studies related to DL and F2F learning. The authors identified the significant impacts of teaching methodology, pedagogy, and media on students’ academic performance in both F2F learning and DL. Students’ academic performances were better when efficient delivery or cost was a reason for offering DL. Similar results were reported for students specializing in military and business studies. However, no differences were found between undergraduate and postsecondary education. Nevertheless, graduate schools demonstrated significant results in favor of DL as compared to F2F learning.

In another comprehensive meta-analysis, Shachar and Neumann (2010) reviewed 125 studies published over twenty years (1990-2009) to identify differences in the academic performance of students in DL and F2F learning. The findings of their study indicate a significant difference in the final grades of students enrolled in DL and F2F learning. Besides, the authors identified changes observed across time and directional patterns. The ratio of positive effect sizes across time improved steadily from 63% up to 84%. According to them, students’ academic performance in DL was not only comparable to F2F learning but even outperformed it.

In a recent review study, Nortvig et al. (2018) identified factors affecting students’ academic performance in DL and blended learning. The dominant factors included the presence of an instructor, interactions, content, and connections between online and offline as well as practice-related activities. The three comprehensive review studies discussed above show that the literature comparing students’ academic performance in F2F learning and DL is extensive.

As pointed out by Ismail et al. (2018), students’ characteristics including gender, age, status, and ethnicity are among the most significant factors influencing academic performance (Urtel, 2008; Tamim et al., 2011). In the United States, Urtel (2008) explored differences in student academic performance in F2F and DL. The author used grades of 385 students as an indicator of academic performance. The findings revealed a significant difference in academic performance connected to gender, student status, and ethnicity. To be more specific, female students in F2F learning outperformed female students in DL, but freshmen students of all genders underperformed when compared to other students.

In a separate study, Christmann (2017) compared the academic performance of students enrolled in a statistics course that was offered through DL and F2F learning. Results of the study found that female students in DL outperformed male students, while male students in the F2F learning section scored higher than females. In examining the role of gender and student performance in DL and F2F learning classes, Amparo et al. (2018) used GPA indicators to explore gender differences. Findings of that study showed that female students outperformed male students in F2F classes, while male students and female students demonstrated equal performance in DL.

Similar studies have reported the impact of individual motivation, learning strategies, and cognitive ability on academic performance (Logan et al., 2017; Stark, 2019). Likewise, others have explored differences and similarities between F2F learning and DL with respect to demographic characteristics, satisfaction, competences, learning outcomes, and academic performance (Ortega-Maldonado et al., 2017; Brubacher & Silinda, 2019). An interesting investigation by Fadda (2019) identified goal orientation, self-efficacy, time and study environment management, seeking assistance, and Internet self-efficacy as self-regulatory attributes that predict academic performance.

The review of literature shows sufficient studies that have investigated academic performance in F2F learning and DL. Prior studies have explored students’ differences in F2F learning and DL as well as other factors affecting academic performance. The factors included demographic characteristics, attitude and perception, competencies, and skills. The current study reports students’ academic performance in F2F learning and DL implemented to prevent the spread of the coronavirus. Findings of this study should contribute to the understanding of the impact of COVID-19 on students’ academic performance.

Conceptual Background

Demographic Characteristics

Demographic characteristics refer to attributes that describe the status of people or a person such as age, gender, ethnicity, or income. This study used gender, college, and status of students as demographic characteristics. Gender denotes biological differences in being male or female. College in this study refers to the schools or faculty of AAU. It consists of two groups: (a) English-based instruction colleges, which include engineering, pharmacy, and business, and (b) Arabic-based instruction colleges, which include law, education, and communication. Status refers to whether a student is a junior or a senior. We consider first- and second-year students as junior, while third-, fourth-, and fifth-year students are considered senior. Prior studies have suggested that demographic characteristics such as these can have an impact on academic performance (Christmann, 2017; Amparo et al., 2018).

Face-to-Face Learning

F2F or traditional learning is a style of learning in which a teacher or instructor meets in person with students in a physical classroom at a specific time. In F2F learning, activities and instruction occur in the classroom without the use of online tools (D’Abundo & Sidman, 2018). This style allows learners to have direct and physical interaction with instructors and fellow students, ensures better understanding of lesson content, and gives class members a chance to work together (Amro et al., 2015).

Distance Learning

Distance learning, distance education, e-learning, online learning, computer-mediated learning, and Web-based learning refer to a process that takes place without physical presence. Unlike F2F learning, activities and instructions in DL occur through the use of learning technologies. F2F learning and DL have been explored by many researchers (Bernard et al., 2004; Shachar & Neumann, 2010; Nortvig et al., 2018).

Conceptual Framework

Figure 1 illustrates the conceptual framework of the study. The framework consists of three independent and two dependent variables. The independent variables are gender, college, and status of the student, while dependent variables are academic performance in F2F learning (AP-F2F) and academic performance in DL (AP-DL). The framework assumes the impact of demographic characteristics or independent variables on academic performance or dependent variables. This conceptual assumption is supported by a theoretical model proposed by Tinto (1975). According to his model, students who attend higher education possess a variety of attributes, experiences, and family backgrounds that may have a direct and indirect impact on their academic performance (Christmann, 2017; Amparo et al., 2018). Prior studies have used the model to identify the relationship between demographic characteristics and academic performance (Ibrahim et al., 2007; Amro et al., 2015). Accordingly, we found the model applied to the current topic.

Figure 1

The Proposed Conceptual Framework

Note. AP = academic performance; F2F = face-to-face learning; DL = distance learning.

Research Questions and Hypotheses

In light of the conceptual framework, the theoretical model proposed by Tinto (1975), and previous studies (Al-Mously et al., 2013;), we asked six research questions and proposed six hypotheses.

Research Questions

  1. Does gender have an impact on academic performance in F2F learning?
  2. Does a college have an impact on academic performance in F2F learning?
  3. Does status have an impact on academic performance in F2F learning?
  4. Does gender have an impact on academic performance in DL?
  5. Does a college have an impact on academic performance in DL?
  6. Does status have an impact on academic performance in DL?

Research Hypotheses

  1. Gender is related to academic performance in F2F learning.
  2. College is related to academic performance in F2F learning.
  3. Status is related to academic performance in F2F learning.
  4. Gender is related to academic performance in DL.
  5. College is related to academic performance in DL.
  6. Status is related to academic performance in DL.

Research Method

Study Population

The main objective of this study is to investigate the impact of demographic characteristics on academic performance. It uses students’ grades and grade point averages (GPA) as indicators of academic performance in F2F learning and DL implemented to prevent the spread of COVID-19. As illustrated in Table 1, the population of the study are students enrolled in various courses offered by AAU as F2F in the first semester and DL in the second semester for the academic year 2019-2020.

Table 1

Sociodemographic Characteristics of Participants

Characteristic n %
Gender
Male 294 49.7
Female 297 50.3
College
English-based instruction a 290 49.1
Arabic-based instruction b 301 50.9
Status
Junior c 280 47.4
Senior d 311 52.6

Note. N = 591.
a Engineering, pharmacy, and business. b Law, education, and communication. c 1st and 2nd year. d 3rd to 5th year.

Data Collection

Approval from a relevant AAU authority allowed researchers to collect data from the Admission and Registration Unit in June 2020. Based on the scope of the study, we collected two categories of data.

As presented in Table 2, the first category of data is based on 5,198 students’ grades (i.e., A, B+, B, etc.) reported in F2F learning and DL courses during the first and second semesters for the academic year 2019-2020. The second category of data is based on 591 students’ semester grade point averages (SGPA) and overall grade point averages (GPA) as reported in F2F learning and DL courses during the same semesters.

Table 2

Types of Collected Data

Category Data Number of students Learning style
Grade A, B+, B, C+, C, D+, D 5,198 F2F
DL
SGPA 0.00-4.00 591 F2F
DL
GPA 0.00-4.00 591 F2F
DL

Note. SGPA = semester grade point average; GPA = grade point average; F2F = face to face learning; DL = distance learning.

Currently, AAU consists of six colleges. However, for statistical analysis, we decided to split the six colleges into two groups: (a) English-language colleges and (b) Arabic colleges. The first group consists of the colleges of Engineering, Pharmacy, and Business, while the second group consists of the colleges of Law, Education, and Communication. Similarly, for the purposes of the research, we categorized the students as junior or senior. First- and second-year students are considered junior, while the third-, fourth-, and fifth-year students are senior in this study.

Data Treatment

The researchers coded and analyzed the collected data through IBM SPSS Statistics (Version 26). Because of the nature of the collected data, i.e., grade, SGPA, and GPA, validity and reliability tests, as well as factor analysis, were not required in this study. Frequency distributions, percentages, and statistical analysis were performed, analyzed, and interpreted to find answers to the research questions, and also to verify and validate the research hypotheses.

Findings

Grades in F2F Learning and DL

Our first analysis concerns students’ grades. The reported grades shown in Table 3 are for 5,198 students from six colleges, registered in various courses of bachelor’s, diploma, and master’s programs, in semesters one and two of the academic year 2019-2020. The first semester was conducted through F2F learning while the second semester was delivered through DL to prevent the spread of the coronavirus. The table summarizes the d ifferences between F2F learning and DL with respect to students’ grades. Similarly, Figure 2 compares the academic performance of BA students with MA and diploma students in F2F learning and DL.

Table 3

Mann-Whitney Test for the Difference Between F2F Learning and DL in Students’ Grades

Grade Teaching method Total Mean rank Z-value p-value
A F2F 2909 11.55 -0.003 0.974
DL 2622 11.45
B+ F2F 2903 11.14 -0.263 0.793
DL 3187 11.86
B F2F 3384 11.09 -0.296 0.768
DL 3960 11.91
C+ F2F 3648 11.41 -0.066 0.947
DL 3887 11.59
C F2F 3275 12.64 -0.825 0.409
DL 1803 10.36
D+ F2F 1299 13.00 -1.122 0.262
DL 475 10.00
D F2F 1132 12.91 -1.054 0.292
DL 405 10.09

Note. F2F = face-to-face learning; DL = distance learning.

Figure 2

Illustrates Additional Differences in Students’ Academic Performances (Grades) in Respect to the Study Level

GPAs in F2F Learning and DL

The analysis in this section is based on a sample of 591 students selected randomly to compare semester grade point average (SGPA) against grade point average (GPA) in F2F learning and DL. As presented in Table 4, the findings show that 49% of students achieved 3.0 to 4.0 SGPA in DL compared to 38% of students in F2F learning courses. Similarly, 34% of students recorded a 3.0 to 4.0 GPA in DL compared to 31% of students in F2F learning. The number of students with less than 2.5 SGPA in F2F learning dropped sharply by 11% in DL. Likewise, the number of students with less than 2.5 GPA in F2F learning dropped slightly by 3% in DL.

Table 4

Students’ GPAs in F2F Learning and DL

SGPA F2F DL GPA F2F DL
N % N % N % N %
3.6-4.0 92 15.56 112 18.95 3.6-4.0 79 13.36 78 13.19
3.0-3.59 133 22.50 183 30.96 3.0-3.59 109 18.44 126 21.31
2.5-2.99 126 21.31 122 20.64 2.5-2.99 118 19.96 124 20.98
2.0-2.49 110 18.61 90 15.22 2.0-2.49 170 28.76 166 28.08
<2.0 130 21.99 84 14.21 <2.0 115 19.45 97 16.41

Note. SGPA = semester grade point average; GPA = grade point average; F2F = face-to-face learning; DL = distance learning.

As presented in Table 5, students in DL demonstrated better academic performance in terms of SGPA (mean rank = 630.38) and GPA (mean rank = 604.13) than the students enrolled in F2F learning courses (SGPA mean rank = 552.62, GPA mean rank = 578.78). The differences in SGPA and GPA between the two learning styles are statistically significant (Z value = -3.917, p -value = 0.00). The findings suggest a positive impact of DL on students’ academic performance.

Table 5

Results of the Mann-Whitney Test

Learning style Academic performance Mean rank Z value p -value
F2F SGPA 552.62 -3.917 0.000*
DL 630.38
F2F GPA 578.87 -1.273 0.203
DL 604.13

Note. N = 591.
* Significant at 0.05 (2-tailed).

Demographic Characteristics and Academic Performance

Table 6 summarizes the results of Spearman’s rho correlation analysis applied to demographic characteristics and academic performance. This non-parametric test was preferred because an early normality test indicated that the data were not normally distributed. The demographic characteristics were gender, college, and status of students. The analysis of correlation indicates a positive significant relationship between gender and SGPA in F2F learning (rs = 0.251) and DL (rs = 0.253). Similarly, findings reveal a positive significant relationship between students’ status and overall GPA in F2F learning (rs = 0.119) and DL (rs = 0.117). Interestingly, the college variable indicates negative significant relationship with overall students’ GPA in F2F learning (rs = -0.125) and DL (rs = -0.110). In addition, it has no significant relationship with SGPA in either F2F learning (rs = -0.038) or DL (rs = -0.060).

Table 6

Spearman’s Rho Test Results Showing Correlation of Study Variables*

Variable 1 2 3 4 5
1. Gender
2. College -.083*
3. Status .134** -.050
4. SGPA (F2F) .251** -.038 .153**
5. SGPA (DL) .243** -.060 .198** .802**
6. GPA (F2F) .242** -.125** .119** .899** .796**
7. GPA (DL) .246** -.110** .117** .888** .877**

Based on the results of Spearman’s correlation analysis which confirmed the relationship between students’ academic performance and demographic characteristics, we performed a linear regression analysis to find out the impact of these variables on academic performance. The researchers assumed that gender, college, and status have a positive impact on a student’s academic performance. The linear regression tests are based on the partial least squares structural equation modelling (PLS-SEM). Table 7 defines the symbols used in the models.

Model 1: Y1 = β0 + β1Gender + β2College + β3Status + ε

Model 2: Y2 = β0 + β1Gender + β2College + β3Status + ε

Table 7

Definitions of Variables

Variable Definition
Y1 academic performance in F2F learning
Y2 academic performance in DL
Gender = 1 if respondent is male, 0 if female
College = 1 if respondent is from English instruction college, 0 if Arabic
Status = 1 if respondent is junior, 0 if senior
ε errors

The models are based on the stated hypotheses. These hypotheses propose the impact of gender, college, and status of a student on academic performance in both F2F learning and DL. As presented in Table 8, findings of regression analyses indicate that gender, college, and status of student have positive and significant impact on students’ academic performance in F2F learning (R2 = 0.075, adjusted R2 = 0.071, F = 15.929, p-value = 0.000) and DL (R2 = 0.074, adjusted R2 = 0.070, F = 15.737, p-value = 0.000). These results support the hypotheses and models of the study. Besides, the findings reveal that gender, college, and status of student explain at least 7.4% of the variation of students’ academic performance in both F2F learning and DL. Although these results appear very weak, they indicate the existence of causation between demographic variables and academic performance.

Table 8

Demographic Characteristics and Academic Performance

Variable Academic performance in F2F learning Academic performance in DL
Model 1 Model 2
Coefficient p-value Coefficient p-value
Constant 2.201 0.000 2.182 0.000
Gender 0.317 0.000 0.318 0.000
College -0.164 0.005 -0.126 0.027
Status 0.119 0.044 0.124 0.031

Note. Model 1: R2 = 0.075, adjusted R2 = 0.071, F = 15.929, p-value = 0.000;
Model 2: R2 = 0.074, adjusted R2 = 0.070, F = 15.737, p-value = 0.000.

The remaining variations in students’ academic performance might be explained by other factors not investigated in this study. This can be observed in figures 3 and 4, which, since the lines in both figures deviate from the diagonals, indicate unexplained variance in the models.

Figure 3

Normal Probability Plot of Regression Standardized Residual. The figure illustrates GPA as dependent variable as mentioned in Model 1 (F2F Learning)

Note. GPA = grade point average; F2F = face to face learning.

Figure 4

Normal Probability Plot for Variable GPA in Model 2 (DL)

Note. GPA = grade point average; DL = distance learning.

Discussion

This study reports the impact of demographic characteristics on students’ academic performance in F2F learning and DL. The results indicate that in terms of grade categories such A, B+, and B, students demonstrated better academic performance in DL than in F2F learning. Similarly, findings reveal a significant difference between F2F learning and DL for both SGPA and overall GPA. The mean score analysis of these differences shows better academic performance in DL than in F2F learning. The findings support the hypotheses and suggest a positive impact of DL on students’ academic performance. These differences could be related to the use of innovative technologies and digital resources in DL. DL technologies and tools serve as vehicles and contribute to students’ academic performance (Haddad et al., 2014; Cheng et al., 2017). According to Rajadurai et al. (2018), DL technologies, the quality and effectiveness of courses, and Internet efficacy are among the factors that can have a positive impact on students’ performance.

These differences could also be related to teaching style. As highlighted by Natarajan (2005), innovative teaching methods used in DL help sustain student’s interest and make the learning process more productive and interesting. DL provides many opportunities to students, including unlimited access to learning materials such recorded lectures, networking with people from different geographical locations and different cultures, convenience in terms of timing, actual duration, concentration, transportation and payment, and objectivity better achieved as compared to F2F learning (Koutsoupidou, 2014). These advantages may have a positive impact on students’ academic performance in DL.

Another possibility for the difference shown in the research is academic dishonesty. Despite the advancement of educational technologies in preventing academic dishonesty in online education, students cheat and plagiarize in DL more frequently than they do in F2F learning. Prior studies have reported students’ dishonesty in DL (Jocoy & DiBiase, 2006; Michael & Williams, 2013). Recent research by Lucky et al. (2019) found that the incidence of cheating among students of DL was 12 times higher compared to students of F2F learning. Similarly, a report by Chirumamilla et al. (2020) showed that students perceived cheating to be much easier in online examinations than in physical classroom examinations. We believe that the evaluation of students’ academic performance in DL should consider academic dishonesty (Lucky et al., 2019).

Meanwhile, the findings of the study revealed the impact of demographic characteristics on academic performance. Accordingly, the results supported the theory proposed by Tinto (1975), the stated hypotheses, and the proposed models. Further analysis indicated that gender, college, and status of student explained at least 7.4% of the variation in academic performance in F2F learning and DL. Certainly, learners are different, unique, and not necessarily equal in intellectual abilities, skills, and experiences (Halpern et al., 2007; Hedges & Friedman, 1993). Accordingly, such factors could have a significant positive influence on their academic performance. Likewise, different colleges have different characteristics that could have a positive impact on students’ academic performance. These include knowledge and experience of faculty members, teaching methods and approaches, and provision of needed learning and teaching materials and equipment (Arora & Singh, 2017). Similarly, concerning students’ status, senior students show better academic performance compared to junior students. This is because senior students have more knowledge, skills, and experience in the higher education environment as compared to junior students (Hassanbeigi et al., 2011).

Conclusion

The spread of COVID-19 has created an opportunity for many educational institutions to implement DL for the first time. In implementing DL, these institutions have been able to successfully continue to provide educational resources and services to students, secure income and revenues for the institution, and contribute to the control and prevention of coronavirus pandemic in society. At AAU, the experience has been remarkable, particularly in academic performance. Despite the pandemic crisis, students achieved better academic performance in DL than in F2F learning. The implementation of DL resulted in a smaller number of weak students and an increase in the number of students with higher GPAs. However, these results are not in isolation from the impact of gender, college, and status of students. The three demographic characteristics have demonstrated a significant impact on students’ academic performance in both F2F learning and DL. Non-DL institutions should continue offering DL programs side-by-side with F2F learning programs. This will attract more students and prepare for any other circumstances that might prevent the provision of F2F learning. Future researchers may wish to explore the impact of other demographic characteristics in assessing students’ academic performance in both F2F learning and DL.

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The Impact of Demographic Characteristics on Academic Performance: Face-to-Face Learning Versus Distance Learning Implemented to Prevent the Spread of COVID-19 by Ghaleb A. El Refae, Abdoulaye Kaba, and Shorouq Eletter is licensed under a Creative Commons Attribution 4.0 International License.