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Understanding the antecedents of knowledge sharing 
behaviour and its relationship to team effectiveness and 
individual learning 
 
Chun-Yu Lin 
National Taipei University, Taiwan 
 
Chung-Kai Huang 
National Taipei University of Business, Taiwan 
 

Due to the competitive and rapidly changing nature of the external business environment, 
university students must acquire the ability to cooperate, share knowledge, and enhance team 
effectiveness and learning in the workplaces of the future. Consequently, the design of 
business courses in higher education merits further discussion. Based on the notions of team-
based learning and flipped classrooms, we proposed a business course model that consisted 
of three main phases: before-class, in-class, and after-class online course activities. After 
implementing the course models in two business courses at two public universities in Taiwan, 
a survey based on social learning and social exchange theories was distributed. The data 
collected from 218 undergraduate business students were analysed. The findings reveal that 
value in team members’ contributions is positively associated with team trust and each has a 
significant impact on knowledge sharing and team effectiveness. Knowledge sharing played 
a key role in this learning context and was a significant mediator between perceptions of 
value in team members’ contributions and team effectiveness, as well as between team trust 
and team effectiveness. In addition, team effectiveness was a benefit to individual learning 
in these classes. 
 
Implications for practice or policy: 
• Business schools are in a position to innovate and create opportunities to deliver 

quality education. Educators should consider the necessity of creating a team-based 
learning environment and build university students’ competency relevant to 
workplaces via flipped classroom approach. 

• In team-based learning, team members’ perceived contributions and team trust are two 
essential antecedents for educators to pay attention to for improving the quality of 
students’ knowledge sharing process and consequences in team effectiveness and 
perceived individual learning. 

 
Keywords: team-based learning; perceived team members’ contributions; team trust; 
knowledge sharing; team effectiveness; perceived individual learning  
 

Introduction 
 
As the business environment continuously changes, curriculum designers of business education must 
recognise emerging needs and incorporate course content that best aligns with industry expectations for 
potential graduates who can meet the challenges (Gonzalez, Quesada, Mueller, & Mueller, 2011). There is 
an opportunity for business schools to transform the current teaching and learning to integrate and connect 
with real business practices that emphasise the importance of group communication and teamwork (Khan, 
2015). In order to pursue such educational intent, business educators must customise instructional design 
by assessing learners’ needs as well as market requirements in order to prepare students to work 
collaboratively in the workplace (Jackson, 2005; Plewa, Galán-Muros, & Davey, 2015). Traditional lecture-
based classes allow instructors to present large amounts of valuable information to learners who are placed 
in a passive role of listening (Carpenter, 2006; Machemer & Crawford, 2007). However, traditional lecture-
based delivery of course content has its pedagogical limitations, and active learning and the interpersonal 
fit between learners and instructors have become critical factors that trigger more effective learning (Exeter 
et al., 2010; Long & Coldren, 2006). 
 
This situation has inspired the practitioners of higher education to enact powerful changes in curriculum 



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and to reform course design by integrating technology that has flipped the passive learning classroom 
environment (Al-Zahrani, 2015; Davies, Dean, & Ball, 2013; Dyson, Vickers, Turtle, Cowan, & Tassone, 
2015). An important characteristic of the flipped approach is the expectation that students will take the 
initiative to study course-related materials before class (McCallum, Schultz, Sellke, & Spartz, 2015), while 
actual class time is designed with activities and tasks that promote students’ application of targeted 
knowledge, abilities, and skills (Albert & Beatty, 2014; Gilboy, Heinerichs, & Pazzaglia, 2015). In this 
study, many of the in-class activities and tasks were organised according to group-based formats in order 
to foster collaboration, knowledge sharing, and learning processes and outcomes (Findlay-Thompson & 
Mombourquette, 2014). Via flipped learning, students increase their awareness of technology as a 
communication tool that can help them to collaborate during task-based teamwork, to undertake interactive 
knowledge inquiry, and to exchange ideas (Mitchell, Skinner, & White, 2010; Rutherford, Parks, Cavazos, 
& White, 2012). 
 
Given that the application of team-based flipped learning in business education is still rare, this study 
focused on exploring how flipped classrooms can be integrated into the business curriculum and how this 
type of flipped approach promotes students’ teamwork and learning. 
 
Literature review 
 
TBL in business education 
 
The competitive and fast-changing characteristics of today’s external business environment require more 
negotiation and collaborative work in many decision-making processes (Tymon, 2013). Accordingly, 
business courses in higher education are experiencing a growing need to investigate course modules that 
promote both specific knowledge and skill learning such as the soft skills of communication, collaboration, 
innovation, and entrepreneurship, for students (Al-Atabi & DeBoer, 2014; Ivanov, Shaidullina, Drovnikov, 
Yakovlev, & Masalimova, 2014). The adoption of team-based learning (TBL) provides students with 
various scenarios and opportunities to strengthen their readiness for the future in an increasingly 
complicated world (Chad, 2012; Lightner, Bober, & Willi, 2007; Mutch, 1998). Grounded in contextual 
situations, TBL encourages students to use interactions and connections with other team members to 
exchange ideas and reach a consensus (Baldwin, Bedell, & Johnson, 1997; Letassy, Fugate, Medina, Stroup, 
& Britton, 2008). TBL cultivates a logical thinking trajectory and promotes active learning by simulating 
the types of problems students will encounter in the workplace in the future (Kesner, Larson, & Dias, 2017). 
 
While applying knowledge and skills to meaningful tasks within a team-based context, students are required 
to inquire, think at high levels, and solve problems via the development of self-directed abilities and 
problem-solving skills (Parmelee & Michaelsen, 2010; Rassuli & Manzer, 2005). The interconnectedness 
derived from this team-based process impacts students in terms of their level of commitment building, 
intimacy, trust, and learning outcomes (McLoughlin & Luca, 2002; Michaelsen & Sweet, 2008; Paul & 
Mukhopadhyay, 2005). TBL emphasises beneficial functioning, intricate bonding, and mutual support 
(Clark, Nguyen, Bray, & Levine, 2008). Typically, the operation of forming a team is based upon the 
diversity of learner characteristics, which remains intact throughout and ensures that no friendship-based 
groupings or pre-existing social networks are adopted (Burgess, McGregor, & Mellis, 2014). TBL 
encourages discussions and the exchange of perspectives. Team members also benefit from an 
understanding of, and feedback from, assigned tasks, the performance of tasks, and the quality of 
interpersonal relationships (Zellmer-Bruhn & Gibson, 2006). Students transition from passive learners to 
active learners via the process of collaboration and reflection. They take responsibility for a significant 
amount of their own subject area and for establishing targeted competencies (Felder & Brent, 1996; Rasiah, 
2014). 
 
Flipped classroom and TBL course design 
 
The flipped classroom provides a model that frees class time from lecture and revolutionises the way 
millennial students receive information (Roehl, Reddy, & Shannon, 2013). It has attracted attention in 
higher education through its leveraging of different technologies and providing various opportunities for 
active learning in class (Abeysekera & Dawson, 2015; McLaughlin et al., 2014; Roach, 2014). By 
transforming the format of traditional transmissive teaching, flipped classroom approaches incorporate 
before-, during- and after-class tasks, that encourage students to share their knowledge and to provide 



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reciprocal constructive feedback (Wallace, Walker, Braseby, & Sweet, 2014). In the flipped classroom 
model, students are required to preview course reading or to watch video material before attending a class 
(Prashar, 2015). During class time, the instructor introduces more sophisticated work that promotes students’ 
assimilation of knowledge as well as collaborative learning through strategies that include role-playing, 
discussion, debates, and problem solving. After-class activities may consist of various types of assignments 
such as practicing individual exercise, reading deeper about the course topic, and cooperation in group 
projects that integrate in-class teaching and learning (Hwang, Lai, & Wang, 2015). 
 
By devoting class time to the implementation of various learning activities, flipped classrooms transform 
the traditional practice of lectures (DeLozier & Rhodes, 2017). Flipped classrooms also incorporate the use 
of technology in and out of the classroom that allows students to access course materials without the 
constraints of location and time (Kim, Kim, Khera, & Getman, 2014). The TBL format places few 
limitations on the delivery and acquisition of primary course materials, which allows class time to be 
dedicated to investigating higher levels of application-based activities. Accordingly, flipped-classroom TBL 
(FC-TBL) not only encourages small groups and classroom activities that facilitate active learning, but also 
motivates students to utilise classroom time to solve problems while cultivating necessary professional 
knowledge, abilities, and skills (Della Ratta, 2015; Huang & Lin, 2017). FC-TBL enables a student to 
embark on an individual thinking trajectory and gain a deeper understanding of the content as primary 
knowledge acquisition takes place before class (Jakobsen & Knetemann, 2017). FC-TBL is an effective 
instructional strategy that allows teaching to be tailored to students’ needs and creates space for student 
discussion, risk-taking, and knowledge sharing with peers while developing expertise (Balan, Clark, & 
Restall, 2015). 
 
Perceived value of team members’ contributions 
 
According to social learning theory (Bandura, 1986), variables such as the individuals’ cognition and 
behaviour are often influenced and shaped by the context of social networking. The FC-TBL course design 
encourages students to learn and interact with other teammates via both in-class and online activities that 
deepen their learning experience by promoting active learning through teamwork (Gomez, Wu, & Passerini, 
2010). Working in teams requires members to build a sophisticated network of relationships on the projects 
they are assigned and allows those who are more capable in particular areas to delicate their strengths and 
expertise accordingly. For instance, some members could have insights into different areas that will allow 
them to contribute with ease to the task at hand. More conscientious team members are more likely expend 
greater effort to help the team meet deadlines (Loughry, Ohland, & DeWayne Moore, 2007). In this FC-
TBL context, team members observe other teammates’ work attitudes and behaviours, and by example they 
teach one another how to work more efficiently. 

 
Effective teams consist of team members who are equipped with the necessary knowledge, skills, and 
abilities and are committed to support each other to accomplish their group goals (Lurey & Raisinghani, 
2001). With a collection of individuals who are collaborative and inter-reliant in their tasks, team 
effectiveness can be understood as the capacity of the team to accomplish their shared goals based on 
predetermined responsibilities and identified outcomes. (Marks, Mathieu, & Zaccaro, 2001). In addition to 
individual accountability for his or her own work, members must have mutual accountability to one another 
for a team to operate effectively (Wang, Yang, and Wu, 2006). On the other hand, team effectiveness can 
be decreased by social loafing: a tendency to exert less effort when working in a group than when working 
individually (Latané, Williams, & Harkins, 1979). Thus, in the FC-TBL environment, students have greater 
opportunities to observe, feel, and discover the value in other team members’ contributions and 
performance. Then, as social learning suggests, they might be more willing to contribute their effort to 
teamwork when they perceive value in the behavior of others, which leads to a higher level of team 
effectiveness. Thus, we have the following hypotheses. 
 

H1: Perceived team members’ valuable contributions are positively associated with team effectiveness. 
 
Some researchers emphasise that the internal team environment is related to team effectiveness (Daspit, 
Tillman, Boyd, & Mckee, 2013). Cohen and Bailey (1997) noted that attributes such as cooperation and 
communication among team members have a positive influence on team effectiveness. Janz, Colquitt, and 
Noe (1997) stated that sharing information and providing assistance are essential to team effectiveness. 
Based on social exchange theory (Blau, 1964), individuals who receive support from the organisation or 



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team are more likely to provide feedback and contribute to the organisation and team in return (Eisenberger, 
Armeli, Rexwinkel, Lynch, & Rhoades, 2001). Accordingly, FC-TBL course design may have the potential 
to foster knowledge sharing within a social context. Thus, we postulate that when students perceive other 
team members’ valuable contributions, such as sharing knowledge and information with other team 
members, they are more likely to share within the team for their mutual benefit. 
 

H2: Perceived team members’ valuable contributions are positively associated with knowledge sharing. 
 
Knowledge is viewed as a means of effective action, which is acquired through learning. Knowledge 
sharing is the interaction between knowledge providers and receivers. The purpose of knowledge sharing 
is to help others learn (Senge, 1997). Therefore knowledge sharing is also described as a flow activity 
(Nissen, 2005), which is an exchange of explicit or tacit knowledge from one party to another (Hall, 2003). 
Researchers have found that knowledge sharing in teams is critical for team effectiveness since team 
members have greater interdependence (Powell, Piccoli, & Ives, 2004). In addition, through collaborative 
learning, team members learn better problem-solving abilities (Nelson & Cooprider, 1996; Wellins, Byham, 
& Dixon, 1994). Hence, we hypothesise that the interaction and transmittance of knowledge and resources 
within teams benefits team effectiveness (Hansen, 1999; Pangil & Chan, 2014; Tsai & Ghosal, 1998). 
 

H3: Knowledge sharing is positively associated with team effectiveness. 
 
The perceptions of value in team members’ contributions positively influences team operation and 
performance in two ways (Lindsley, Brass, & Thomas, 1995; Lester, Meglino, & Korsgaard, 2002). First, 
an individual team member’s stronger level of devotion to the team may also motivate others to actively 
participate in team activities (Krackhardt & Stern, 1988), which leads to a level of knowledge and 
information exchange that becomes an important team resource or asset (Burt, 1992). Second, when 
someone is willing to share resources and information, they make themselves more accessible to other team 
members, which leads to the creation of closer collegial relationships which promote knowledge sharing 
and transfer (Krackhardt & Stern, 1988). This in turn promotes knowledge sharing and transfer (Dhanaraj, 
Lyles, Steensma, & Tihanyi, 2004), and it leads to more positive benefits such as team effectiveness. 
Researchers have found that individual contributions can promote team development and reduce social 
loafing. Good teamwork can have a positive impact on the overall learning experience (Michaelsen, Fink, 
& Knight, 2002). Therefore, we further hypothesise that knowledge sharing can play a mediating role 
between the perception of value in team members’ contributions and team effectiveness. 
 

H4: Knowledge sharing mediates the relationship between perceived team members’ valuable 
contributions and team effectiveness. 

 
Trust generally involves concepts such as honesty, trust-worthiness, reliability, responsibility, and purity of 
motives (Colquitt, Scott, & LePine, 2007), while team trust refers to the extent to which team members 
believe each other or rely on the actions of other teammates (Chang & Cheng, 2013). According to Blau’s 
(1964) perspective on social exchange theory, individuals who perceive support and trust from their 
teammates will feel an obligation to pay it back. Consequently, perceived positive thinking within the team 
may lead to positive interactions, which can lead to better teamwork and to a greater level of effectiveness 
(Al-Kurdi, El-Haddadeh, & Eldabi, 2018). Evidence from relevant studies has found that individuals 
develop an interdependent relationship with the organisation or team. Such interdependencies can generate 
a high-quality relationship among teammates, and help the organisation or team reach its goals (Daspit, et 
al., 2013; Eisenberger et al., 2001). Thus, in the FC- TBL classroom, if team members experience trust in 
the team, they should have a better relationship, and the team should run more efficiently and effectively. 
Further, it is also predictable that a good relationship among team members will a positive impact on 
knowledge sharing (Nelson & Cooprider, 1996). Thus, we formulated the following two hypotheses. 
 

H5: Team trust is positively associated with team effectiveness. 
H6: Team trust is positively associated with knowledge sharing. 

 
Sharing knowledge and resources within teams contributes to team effectiveness. Knowledge sharing in 
teams is critical for team effectiveness since team members rely on each other (Powell et al., 2004). 
Consequently, as social exchange theory has noted, individuals who perceive support from their teams will 
experience an obligation to repay the team. Thus, it is likely that students who perceive positive social 



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support in this internal team environment will be more likely to engage in knowledge sharing activities 
(Daspit, et al., 2013), which leads to team effectiveness. 
 

H7: Knowledge sharing mediates the relationship between team trust and team effectiveness. 
 
It is meaningful to assess team members’ perceptions of the value of the contributions from other team 
members since people are likely to make contributions to their teams based on what they perceive about 
other team members’ supportive behaviour and contributions (Daspit, et al., 2013). Social exchange theory 
suggests, interpersonal interactions can create a sense of interdependence among team members (Blau, 
1964), and such an interdependent relationship can generate a high-quality relationship (Cropanzano & 
Mitchell, 2005), and enhance cohesion in teams (Daspit, et al., 2013). In this context, students were asked 
whether they perceive teammates’ contributions as valuable, useful, and worthy of their study time 
investment. This should correlate with the overall level of trust among team members. 
 

H8: Perceived team members’ valuable contributions will be correlated with team trust. 
 
When team members have a stronger team orientation, people are clearer about their roles and jobs in teams 
(Isabella & Waddock, 1994), and learners have higher levels of perceived individual learning from the 
collaborative contribution (Gomez et al., 2010). 
 

H9: Team effectiveness is positively associated with perceived individual learning. 
 
Based on the nine proposed hypotheses, a research framework is presented in Figure 1. 
 

 
Figure 1. The hypothesised model 
 
 
Methods 
 
The study received the ethical approval from the Research Ethics Office of National Taiwan University. 
The participants gave informed consent to participate in this study. 
 
Research context and participants 
 
The research context of the study is the FC-TBL, which is an instructional design focused on the philosophy 
of a constructivist paradigm that encourages students to take an active role and contribute to developing 
their own knowledge and information seeking process (Jonassen & Land, 2012). We replicated the 
framework of Huang and Lin (2017) in the design of FC-TBL regarding the pre-, during-, and after-class 
tasks. Students were required to take the initiative in previewing the assigned course materials before 
classes, which included watching videos and reading textbook-related materials. During the classes, the 

H8 

H2 

H1 

H3 

H4 

Perceived team 
members’ 
valuable 

contributions   

Team 
effectiveness 

Perceived 
individual 
learning 

Team trust 

Knowledge 
sharing 

H9 

H6 
H5 H7 



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instructors provided opportunities to engage in various in-class activities and participate in online Facebook 
discussions and assignments among peer learners. 
 
The blended approach of FC-TBL in business courses serves as a potential model to leverage technology, 
increase teacher-student and student-student interactions and engagement, and provide greater 
opportunities to achieve a higher level of learning. The participants consisted of 262 business-major 
undergraduate students at two national universities in an urban area of northern Taiwan. These two 
universities aim to cultivate quality and innovation in the business education of their students. All of the 
participants took the undergraduate business courses based on the FC-TBL learning models organised by 
our research team in two semesters. A total of 240 surveys were returned, and 218 of them were valid for 
further data analysis. The response rate was 83.20%. The data were analysed using SPSS 19 and AMOS 22 
software programs. 
 
Measures 
 
Our survey had five dimensions: (1) perceived team members’ valuable contributions, (2) team trust, (3) 
knowledge sharing, (4) team effectiveness, and (5) perceived individual learning, consisting of 29 items in 
total. All items were translated from English to Chinese. The questionnaire was checked by two content 
and language experts to avoid translation and linguistic errors. In order to reduce the effect of common 
method variance, some variables were rated via a 5-point scale and some were rated through use of a 7-
point scale (1= strongly disagree to 7= strongly agree; 1= strongly disagree to 5= strongly agree). 
 
Perceived team members’ valuable contributions 
This construct was assessed using three items from a validated survey on asynchronous online 
communications (Wu & Hiltz, 2004). This construct was rated on 5-point Likert scale. A sample items is 
“Most classmates’ comments are very valuable.” The Cronbach’s α was 0.77, which indicates high internal 
consistency for the set of items. 
 
Team trust 
Team trust generally refers to the trust relationships among members. The construct was assessed using the 
modified scale developed by Wang, Yang, and Wu (2006). The scale has five items and it was also rated on 
a 5-point Likert scale. A sample item is “Classmates trust other members’ levels of competency and help 
each other in the team. The Cronbach’s α was 0.87. 
 
Knowledge sharing 
Knowledge sharing involves the interaction and knowledge sharing behavior among team members. The 
construct was assessed by the eight items derived from Nelson and Cooprider’s (1996) and Senge’s (1997) 
studies. A sample item is “Team members often share their knowledge and experience with others 
voluntarily and proactively.” This construct was rated on a 5-point Likert scale as well. The original 
Cronbach’s α was 0.87. 
 
Team effectiveness 
The scale of team effectiveness was rated based on two studies (Lurey & Raisinghani, 2001; Wang, Yang, 
& Wu, 2006). Team effectiveness was rated on a 5-point Likert scale and had two sub-dimensions: 
performance and quality of work life. One item concerned budget limitations in teamwork, which is not 
applicable to this research context, so we eliminated the item after performing exploratory factor analysis 
to test whether the scale contained the two dimensions of the original one. The result of total explained 
variance was 58.21%, and it had only one dimension for the scale. Later, based on confirmatory factor 
analysis, one more item with lower factor loadings was eliminated, so we used 6 items to access team 
effectiveness. The original Cronbach’s α was 0.86. 
 
Perceived individual learning 
This construct was assessed by the six items adopted from prior studies in an asynchronous computer-
supported learning network context (Gomez et al., 2010). This construct was rated on a 7-point Likert scale. 
A sample items is “The learning quality of course materials was improved by the team activities.” The 
original Cronbach’s α was .92. 
 
  



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Confirmatory factory analysis 
Research in the field of business data analysis (Hair, Black, Babin, & Anderson, 2010; Hooper, Coughlan, 
& Mullen, 2008), suggest standardised factor loadings should be at least .50. because these represent the 
characteristics of the dimensions in each construct and help determine the reliability in our questionnaire 
scale. After performing the confirmatory factor analysis, we deleted some items in three of the constructs: 
team trust, knowledge sharing, and perceived individual learning. Overall, we had 24 items in our final 
questionnaire. In addition, we conducted a Harman's1-factor test to determine whether there was a serious 
common method variance problem in the post-hoc testing. The results showed that the first principal 
component in the total variance explained sheet was 18.70%, lower than 50%. This suggested no serious 
common method variance problem. 
 
 
Results 
 
Inter-correlations of variables 
 
Table 1 shows the means, standard deviations, the square root of average variance extracted (AVE), and the 
correlations for all variables in this study. Except for the Pearson’s correlation of knowledge sharing and 
team effectiveness (r = .74, p < .001), other correlation coefficients returned medium or lower levels of 
correlations. Perceived team members’ valuable contribution was positively related to team trust (r = .37, 
p < .001), knowledge sharing (r = .47, p < .001), team effectiveness (r = .45, p < .001), and perceived 
individual learning (r = .64, p < .001). Both team effectiveness and perceived individual learning were 
significantly related to knowledge sharing (r = .74, p < .001; r = .57, p < .001, respectively), and team 
effectiveness was positively related to perceived individual learning (r = .50, p < .001). According to Hair 
et al. (2010), the estimated intercorrelations among most of the constructs in this study were less than the 
AVE square roots for each construct, and this evidence provided support for the discriminant validity of the 
scales. 
 
Table 1 
Means, standard deviations, validity, and correlations of variables 
Variables Mean SD 1 2 3 4 5 6 
1. Gender .27 .45       
2. Perceived team members’ 
valuable contributions 3.77 .57 .05 (.77)     

3. Team trust 4.02 .66 .03 .37*** (.80)    
4. Knowledge sharing 3.92 .55 -.01 .47*** .65*** (.73)   
5. Team effectiveness 3.91 .56 .04 .45*** .63*** .74*** (.73)  
6. Perceived individual 
learning 4.93 .89 .12 .64*** .40*** .57*** .50*** (.85) 

Note. The parentheses in the correlation matrix represents the square root of AVE. ***p < .001; N = 218 
 
Reliability and validity 
 
Table 2 shows that both Cronbach’s alpha and composite reliability (CR) of each construct exceed the .70 
threshold value, so the internal consistency reliability is acceptable (Bagozzi & Yi, 1989; Fornell & Larcker, 
1981). In addition, the AVE from all constructs ranged from .54 to .72 and exceeded the .50 threshold value 
(Bagozzi & Yi, 1989; Fornell & Larcker, 1981), so convergent validity was achieved for all constructs. 
 
  



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Table 2 
Coefficients for the 5-factor measurement model 

Note. N = 218. AVE (> .50); CR (> .70) 
 
Model-data fit 
 
We also performed confirmatory factor analsyis for each of the latent variables and the 5-factor SEM model, 
as measured by the 24 indicators. Table 3 provides the satisfactory model fit indices and evidence of 
discriminant validity, which decreases the potential influence of common methods variance (Podsakoff, 
MacKenzie, Lee, & Podsakoff, 2003; Podsakoff & Organ, 1986). The 5-factor model used in this study 
indicated the different characteristics and concepts of five constructs in the measurement model. 
 
Table 3 
Summary of fit indices 

Variables 
Fit Indices 

CR 
   χ² df χ²/df RMSEA CFI TLI IFI 

1. Perceived team members’ 
valuable contributions - - - - - - - .80 

2. Team trust 4.37 2 2.19 .07 .99 .98 .99 .87 
3. Knowledge sharing 17.55 9 1.95 .07 .99 .98 .99 .87 
4. Team effectiveness 22.04 9 2.45 .08 .98 .96 .98 .87 
5. Perceived individual learning 18.07 5 3.61 .11 .99 .97 .99 .93 
6. Five-factors model 513.04 245 2.09 .07 .92 .91 .92 - 
Note. N = 218 
 
Structural model 
 
According to our analyses, the results of the direct effects of perceived team members’ valuable 
contributions (standardised direct effect = .43, p < .001) and team trust (standardised direct effect = .67, p 
< .001) on team effectiveness were statistically significant. Hence, hypotheses 1 and 5 were supported. In 
addition, the results of the direct effects of perceived team members’ valuable contributions and team trust 

Variable No. of items 
Underlying 

items Cronbach’s α 
Standardised 

factor loadings CR AVE 

Perceived team members’ 
valuable contributions 

3 PTMVC14 .77 .88 .80 .59 
PTMVC15 .92 
PTMVC16 .40 

Team trust 4 TT58 .87 .81 .87 .63 
TT59 .90 
TT60 .79 
TT62 .67 

Knowledge sharing 6 KS20 .87 .61 .87 .54 
KS23 .73 
KS24 .77 
KS25 .79 
KS26 .73 
KS27 .75 

Team effectiveness 6 TE28 .86 .51 .87 .54 
TE30 .70 
TE31 .84 
TE32 .78 
TE33 .83 
TE34 .71 

Perceived individual 
learning 

5 PIL1 .92 .90 .93 .72 
PIL2 .86 
PIL3 .90 
PIL4 .91 
PIL6 .65 



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on knowledge sharing (standardised direct effect = .47, p < .001; standardised direct effect = .74, p < .001, 
respectively), and the subsequent direct effects of knowledge sharing on team effectiveness (standardised 
direct effect = .76, p < .001) were all statistically significant. Consequently, hypotheses 2, 3, and 6 are 
supported. 
 
In addition, the direct effect of team effectiveness on perceived individual learning (standardised direct 
effect = .60, p < .001) is significant. Therefore, hypothesis 9 is supported. An explanation of hypothesis 8 
can be illustrated by the positive correlation between perceived team members’ valuable contributions and 
team trust (standardised direct effect= .35, p < .001). It means that students perceived more valuable 
contributions from other team members, which would reinforce trust among team members. Further, the 
impact of affective perceptions regarding other team members’ contributions and trust apparently 
influenced further behaviours and actions in teams. 
 

Figure 2. Structural equation modeling of the hypothesised model 
Note. ***p < .001; N = 218 
 
In order to investigate the indirect effects of dependent variables through the mediator of knowledge sharing, 
we conducted bias-corrected bootstrapping and percentile bootstrapping at a 95% confidence interval with 
5,000 bootstrap samples (Taylor, MacKinnon, & Tein, 2008). Further, we followed the suggestions of 
Preacher and Hayes (2008) and calculated the confidence interval of the lower and upper bounds to 
determine whether zero is included in the specific interval, which was used to determine the significance 
of the indirect effect. As shown in Table 4, the results of the bootstrapping test confirmed the existence of 
a positive and significant intervening effect for knowledge sharing between perceived team members’ 
valuable contributions and team effectiveness (standardised direct effect = .29, p < .001). A similar 
intervening effect that knowledge sharing exerted between team trust and team effectiveness was revealed 
in Table 5, which indicated fully mediation in this model. The Z scores of the direct effects in the products 
of the coefficients both (.64 and .74) fell under the 1.96 threshold value. The direct effects were obviously 
insignificant. Based on the above statements, full mediations occurred in this study, and hypotheses 4 and 
7 are supported.  
 
  

.23*** 

.35*** 

.08 

.08 

.76*** 

.66*** 

.60*** 

Team trust 

Team 
effectiveness 

Perceived 
individual 
learning 

Perceived team 
members’ 
valuable 

contributions   

Knowledge 
sharing  



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Table 4 
The mediating effect of knowledge sharing between perceived team members’ valuable contributions and 
team effectiveness 

 Point  
estimation 

Product of  
coefficients 

Bootstrapping 
 Bias-corrected 

95% CI 
Percentile 
95% CI 

 SE Z Lower Upper Lower Upper 
Indirect effect 0.287 0.073 3.932 0.163 0.458 0.155 0.441 
Direct effect 0.035 0.055 0.636 -0.069 0.151 -0.068 0.151 
Total effect 0.322 0.087 3.701 0.167 0.51 0.165 0.506 
Note. Bootstrapping sample of estimation is 5,000 
 
Table 5 
The mediating effect of knowledge sharing on team trust and team effectiveness 

 Point  
estimation 

Product of  
coefficients 

Bootstrapping 
 Bias-corrected 

95% CI 
Percentile 
95% CI 

 SE Z Lower Upper Lower Upper 
Indirect effect 0.421 0.091 4.626 0.28 0.659 0.266 0.622 
Direct effect 0.065 0.088 0.739 -0.116 0.238 -0.103 0.248 
Total effect 0.486 0.095 5.116 0.315 0.687 0.318 0.693 
Note. Bootstrapping sample of estimation is 5,000 
 
Discussion 
 
The results of this study reveal that our research framework had a good data-model fit and the nine 
hypotheses are all supported. In general, evidence shows that the course design inclusion of three phases 
was suitable for business course delivery and student learning in the business professions. Further, the FC-
TBL course design gave students greater opportunities to interact, communicate with teammates, and create 
a learning communities. More specifically, in the FC-TBL classroom, the construct of perceived team 
members’ valuable contributions greatly impacted students’ knowledge sharing (H2) and team 
effectiveness (H1). In contrast, team trust also had positive impacts on knowledge sharing (H6) and on team 
effectiveness (H5). Knowledge sharing was associated with team effectiveness (H3). H4 posits that 
knowledge sharing plays a mediating role between perceived team members’ valuable contributions and 
team effectiveness. H7 posits that the mediating role of knowledge sharing makes a significant contribution 
to team trust and team effectiveness. Perceived team members’ valuable contribution was positively 
associated with team trust (H8). Last, team effectiveness was positively related to individual learning (H9). 
 
In this study, the combination of flipped classrooms and team-based learning proved to be a successful 
model for business courses. Through the implementation of FC-TBL, participating students shared 
knowledge and collaborated in teams and the empirical data revealed that the business students’ individual 
learning was effectively increased. Our results generally agree with those of previous studies conducted in 
flipped classrooms (Abeysekera & Dawson, 2015; McLaughlin et al., 2014; Roach, 2014). Flipped 
classrooms not only utilise various instructional strategies and technology to transform the teaching 
environment, but also provide learners with opportunities for active learning in class. In addition, our 
findings resonated with previous research outcomes on TBL in terms of its pedagogical characteristics and 
corresponding advantages (Balan, Clark, & Restall, 2015; Baldwin, Bedell, & Johnson, 1997; Berge, 1997; 
Burgess, McGregor, & Mellis, 2014; Campbell & Stasser, 2006; Chad, 2012; Chang & Cheng, 2013; Daspit, 
Tillman, Boyd, & McKee, 2013; Della Ratta, 2015; Gomez et al., 2010; Jakobsen & Knetemann, 2017; 
Huang & Lin, 2017; Rasiah, 2014; Wu & Hiltz, 2004). Computer-mediated or blended TBL can be viewed 
as an effective teaching method to enhance students’ learning experience and performance. 
 
Conclusions and implications 
 
We examined several important variables regarding students’ teamwork and learning in a research context 
based on the notions of social exchange theory (Blau, 1964) as well as social learning theory (Bandura, 



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1986. The findings show that the dynamic interactions and interdependent relationships formed among the 
team members are essential in team-based work. As indicated, perceived team members’ valuable 
contributions and team trust are responsible for team members’ knowledge sharing. Through the processes 
of knowledge exchange and sharing, team effectiveness and individual learning is subsequently achieved. 
In addition, the findings indicated that knowledge sharing is critical in a FC-TBL classroom. The results 
from the students’ interactions and achievement in this FC-TBL classroom resonated with the two theories 
that were applied as the students learned, worked, interacted, and collaborated as a team. For instance, 
individuals were more willing to share knowledge when they perceived value in the contributions from 
their teammates. 
 
This study showed that in a FC-TBL classroom where high interdependence is needed for the completion 
of a performance collaborative, when team trust is built, team members are more likely to assist and 
cooperate with one another through their communication of ideas and exchanges of knowledge. With the 
open sharing of knowledge among team members, a team operates better, generates productive outcomes, 
and achieves improved performance due to the collective contribution. Compared with the lecture-only 
classrooms, learners in a FC-TBL classroom learn better when they work well in teams and develop targeted 
competencies and skills by participating in different tasks and consequently increase their own competitive 
advantage. In brief, these findings are consistent with previous studies (Buvik & Tvedt, 2017; Chang & 
Cheng, 2013; Wang et al., 2006) and are valuable and insightful for instructors to consider when conducting 
FC-TBL. 
 
Thus, FC-TBL instructors must construct an open and trusting environment that promotes their learning 
motivation and encourages members to take initiatives when participating. Instructors can help students 
organise their communities, establish their rapport, find common language and vision, and discuss the 
potential benefits and barriers that must be overcome for knowledge sharing processes. When an individual 
is confident of their team members’ support of the group’s work, he or she is far more likely to communicate 
openly, exchange ideas, and share knowledge. Also, by engaging in participative problem solving and 
decision-making processes, team members are more likely to reciprocate as they contribute their expertise 
and insights to one another. When each member is willing to share useful information and knowledge 
towards targeted tasks, the team can achieve their goals in a more effective and meaningful way due to 
mutual influence and cohesiveness. The dynamic processes of conversations and collaborations before-, 
during- and after- class can deepen each individual learner’s understanding of the content through self-
directed learning and practical application. 
 
Limitations and future directions 
 
We experimented with FC-TBL in support of undergraduate business courses and examined the relationship 
among relevant factors. Nevertheless, a number of limitations remain. First, the research framework was 
conducted at two universities in one subject area. Future studies are encouraged to apply and expand this 
research framework in different course settings. Second, quantitative data were collected for research 
analysis, so different qualitative research paradigms can be adopted to explore additional information and 
findings regarding similar instructional designs and topics. Third, the research design was performed in a 
self-reported fashion, although CMV problem was not a serious problem. Future studies could use a 
proactive experiment design to examine the effect of FC-TBL in different temporal stages or the difference 
between FC-TBL and traditional teaching methods. Furthermore, researchers could apply longitudinal or 
multi-level study to eliminate any variance error generated from data collection. Qualitative data, such as 
interviews or field documents, could be integrated to develop a better understanding of the research 
problems and corroborate the results from quantitative data. 
 
  



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Acknowledgements 
 
The authors would like to thank our anonymous reviewers for their valuable feedback and the Ministry of 
Science and Technology of Taiwan for its research grant support (MOST 107-2410-H-141-011 and MOST 
107-2410-H-305-058). 
 
References 
 
Abeysekera, L., & Dawson, P. (2015). Motivation and cognitive load in the flipped classroom: Definition, 

rationale and a call for research. Higher Education Research & Development, 34(1), 1-14. 
https://doi.org/10.1080/07294360.2014.934336 

Al-Atabi, M., & DeBoer, J. (2014). Teaching entrepreneurship using massive open online course 
(MOOC). Technovation, 34(4), 261-264. 

Al-Kurdi, O., El-Haddadeh, R., & Eldabi, T. (2018). Knowledge sharing in higher education institutions: 
A systematic review. Journal of Enterprise Information Management, 31(2), 226-246. 
https://doi.org/10.1108/JEIM-09-2017-0129 

Al‐Zahrani, A. M. (2015). From passive to active: The impact of the flipped classroom through social 
learning platforms on higher education students' creative thinking. British Journal of Educational 
Technology, 46(6), 1133-1148. https://doi.org/10.1111/bjet.12353 

Albert, M., & Beatty, B. J. (2014). Flipping the classroom applications to curriculum redesign for an 
introduction to management course: Impact on grades. Journal of Education for Business, 89(8), 419-
424. https://doi.org/10.1080/08832323.2014.929559 

Bagozzi, R. P. & Yi, Y. (1989). On the evaluation of structural equation models. Journal of Academy 
Marketing Science, 16, 74–94. https://doi.org/10.1007/BF02723327 

Balan, P., Clark, M., & Restall, G. (2015). Preparing students for flipped or team-based learning methods. 
Education+ Training, 57(6), 639-657. https://doi.org/10.1108/ET-07-2014-0088 

Baldwin, T. T., Bedell, M. D., & Johnson, J. L. (1997). The social fabric of a team-based MBA program: 
Network effects on student satisfaction and performance. Academy of Management Journal, 40(6), 
1369-1397. https://doi.org/10.5465/257037 

Bandura, A. (1986). The social foundations of thought and action. Englewood Cliffs, NJ: Prentice-Hall. 
Berge, Z. L. (1997). Computer conferencing and the on-line classroom. International Journal of 

Educational Telecommunications, 3(1), 3-21. 
Blau, P. M. (1964). Exchange and power in social life. New York, NY: Wiley. 
Burgess, A. W., McGregor, D. M., & Mellis, C. M. (2014). Applying established guidelines to team-based 

learning programs in medical schools: A systematic review. Academic Medicine, 89(4), 678-688. 
https://doi.org/10.1097/ACM.0000000000000162 

Burt, R. (1992). Structural holes. Cambridge, MA: Harvard University Press. 
Buvik, M. P., & Tvedt, S. D. (2017). The influence of project commitment and team commitment on the 

relationship between trust and knowledge sharing in project teams. Project Management Journal, 
48(2), 5-21. 

Campbell, J., & Stasser, G. (2006). The influence of time and task demonstrability on decision-making in 
computer-mediated and face-to-face groups. Small Group Research, 37(3), 271–294. 
https://doi.org/10.1177/1046496406288976 

Carpenter, J. M. (2006). Effective teaching methods for large classes. Journal of Family & Consumer 
Sciences Education, 24(2), 13-23. 

Chad, P. (2012). The use of team-based learning as an approach to increased engagement and learning for 
marketing students: A case study. Journal of Marketing Education, 34(2), 128-139. 
https://doi.org/10.1177/0273475312450388 

Chang, J-N., & Cheng, C-Y. (2013). Effects of school team embeddedness on team trust and potency. 
Quality & Quantity, 47(4), 1851-1868. https://doi.org/10.1007/s11135-011-9630-y 

Clark, M. C., Nguyen, H. T., Bray, C., & Levine, R. E. (2008). Team-based learning in an undergraduate 
nursing course. Journal of Nursing Education, 47(3), 111-117. https://doi.org/10.3928/01484834-
20080301-02 

Cohen, S. G., & Bailey, D. E. (1997). What makes teams work: Group effectiveness research from the 
shop floor to the executive suite. Journal of Management, 23(3), 239-290. 
https://doi.org/10.1177/014920639702300303 

Colquitt, J. A., Scott, B. A., & LePine, J. A. (2007). Trust, trustworthiness, and trust propensity: A meta-

https://doi.org/10.1080/07294360.2014.934336
https://doi.org/10.1108/JEIM-09-2017-0129
https://doi.org/10.1111/bjet.12353
https://doi.org/10.1080/08832323.2014.929559
https://doi.org/10.1007/BF02723327
https://doi.org/10.1108/ET-07-2014-0088
https://doi.org/10.5465/257037
https://doi.org/10.1097/ACM.0000000000000162
https://doi.org/10.1177/1046496406288976
https://doi.org/10.1177/0273475312450388
https://doi.org/10.1007/s11135-011-9630-y
https://doi.org/10.3928/01484834-20080301-02
https://doi.org/10.3928/01484834-20080301-02
https://doi.org/10.1177/014920639702300303


Australasian Journal of Educational Technology, 2020, 36(2).   

 

101 

 

analytic test of their unique relationships with risk taking and job performance. Journal of Applied 
Psychology, 92, 909-927. https://doi.org/10.1037/0021-9010.92.4.909 

Cropanzano, R., & Mitchell, M. S. (2005). Social exchange theory: An interdisciplinary review. Journal 
of Management, 31(6), 874-900. https://doi.org/10.1177/0149206305279602 

Daspit, J., Tillman, C., Boyd, N. G., & McKee, V. (2013). Cross-functional team effectiveness: An 
examination of internal team environment, shared leadership, and cohesion influences. Team 
Performance Management: An International Journal, 19(1/2), 34-56. 
https://doi.org/10.1108/13527591311312088 

Davies, R. S., Dean, D. L., & Ball, N. (2013). Flipping the classroom and instructional technology 
integration in a college-level information systems spreadsheet course. Educational Technology 
Research and Development, 61(4), 563-580. https://doi.org/10.1007/s11423-013-9305-6 

Della Ratta, C. B. (2015). Flipping the classroom with team-based learning in undergraduate nursing 
education. Nurse Educator, 40(2), 71-74. https://doi.org/10.1097/NNE.0000000000000112 

DeLozier, S. J., & Rhodes, M. G. (2017). Flipped classrooms: A review of key ideas and 
recommendations for practice. Educational Psychology Review, 29(1), 141-151. 
https://doi.org/10.1007/s10648-015-9356-9 

Dhanaraj, C., Lyles, M. A., Steensma, H. K., & Tihanyi, L. (2004). Managing tacit and explicit 
knowledge transfer in IJVs: the role of relational embeddedness and the impact on 
performance. Journal of International Business Studies, 35(5), 428-442. 
https://doi.org/10.1057/palgrave.jibs.8400098 

Dyson, B., Vickers, K., Turtle, J., Cowan, S., & Tassone, A. (2015). Evaluating the use of Facebook to 
increase student engagement and understanding in lecture-based classes. Higher Education, 69(2), 
303-313. https://doi.org/10.1007/s10734-014-9776-3 

Eisenberger, R., Armeli, S., Rexwinkel, B., Lynch, P. D., & Rhoades, L. (2001). Reciprocation of 
perceived organizational support. Journal of Applied Psychology, 86(1), 42-51. 

Exeter, D. J., Ameratunga, S., Ratima, M., Morton, S., Dickson, M., Hsu, D., & Jackson, R. (2010). 
Student engagement in very large classes: The teachers’ perspective. Studies in Higher Education, 
35(7), 761-775. https://doi.org/10.1080/03075070903545058 

Felder, R. M., & Brent, R. (1996). Navigating the bumpy road to student-centered instruction. College 
Teaching, 44(2), 43-47. https://doi.org/10.1080/87567555.1996.9933425 

Findlay-Thompson, S., & Mombourquette, P. (2014). Evaluation of a flipped classroom in an 
undergraduate business course. Business Education & Accreditation, 6(1), 63-71. 

Fornell, C., & Larcker, D. F. (1981). Evaluating structural equation models with unobservable variables 
and measurement error. Journal of Marketing Research, 18(1), 39–50. 
https://doi.org/10.2307/3151312 

Gilboy, M. B., Heinerichs, S., & Pazzaglia, G. (2015). Enhancing student engagement using the flipped 
classroom. Journal of Nutrition Education and Behavior, 47(1), 109-114. 
https://doi.org/10.1016/j.jneb.2014.08.008 

Gomez, E. A., Wu, D., & Passerini, K. (2010). Computer-supported team-based learning: The impact of 
motivation, enjoyment and team contributions on learning outcomes. Computers & Education, 55(1), 
378-390. https://doi.org/10.1016/j.compedu.2010.02.003  

Gonzalez, M. E., Quesada, G., Mueller, J., & Mueller, R. D. (2011). International business curriculum 
design: Identifying the voice of the customer using QFD. Journal of International Education in 
Business, 4(1), 6-29. https://doi.org/10.1108/18363261111170568 

Hair, J., Black, W., Babin, B., & Anderson, R. (2010). Multivariate data analysis (7th ed.). Upper Saddle 
River, NJ: Prentice-Hall. 

Hall, H. (2003). Borrowed theory: applying exchange theories in information science research. Library & 
Information Science Research, 25(3), 287-306. https://doi.org/10.1016 /S0740-8188(03)00031-8 

Hansen, M. T. (1999). The search-transfer problem: The role of weak ties in sharing knowledge across 
organization subunits. Administrative Science Quarterly, 44(1), 82-111. 
https://doi.org/10.2307/2667032 

Hooper, D., Coughlan, J., & Mullen, M. (2008). Structural equation modelling: Guidelines for 
determining model fit. Electronic Journal of Business Research Methods, 6(1), 53–60. 
https://doi.org/10.21427/D7CF7R 

Huang, C-K., & Lin, C-Y. (2017). Flipping business education: Transformative use of team-based 
learning in human resource management classrooms. Educational Technology & Society, 20(1), 323-
336. 

Hwang, G-J., Lai, C-L., & Wang, S-Y. (2015). Seamless flipped learning: a mobile technology-enhanced 

https://doi.org/10.1037/0021-9010.92.4.909
https://doi.org/10.1177/0149206305279602
https://doi.org/10.1108/13527591311312088/full/html
https://doi.org/10.1007/s11423-013-9305-6
https://doi.org/10.1097/NNE.0000000000000112
https://doi.org/10.1007/s10648-015-9356-9
https://doi.org/10.1057/palgrave.jibs.8400098
https://doi.org/10.1007/s10734-014-9776-3
https://doi.org/10.1080/03075070903545058
https://doi.org/10.1080/87567555.1996.9933425
https://doi.org/10.2307/3151312
https://doi.org/10.1016/j.jneb.2014.08.008
https://doi.org/10.1016/j.compedu.2010.02.003
https://doi.org/10.1108/18363261111170568
https://doi.org/10.1016%20/S0740-8188(03)00031-8
https://doi.org/10.2307/2667032
https://doi.org/10.21427/D7CF7R


Australasian Journal of Educational Technology, 2020, 36(2).   

 

102 

 

flipped classroom with effective learning strategies. Journal of Computers in Education, 2(4), 449-
473. https://doi.org/10.1007/s40692-015-0043-0 

Isabella, L. A., & Waddock, S. A. (1994). Top management team certainty: Environmental assessments, 
teamwork, and performance implications. Journal of Management, 20(4), 835-858. 
https://doi.org/10.1177/014920639402000407 

Ivanov, V. G., Shaidullina, A. R., Drovnikov, A. S., Yakovlev, S. A., & Masalimova, A. R. (2014). 
Regional experience of students’ innovative and entrepreneurial competence forming. Review of 
European Studies, 7(1), 35-40. https://doi.org/10.5539/res.v7n1p35 

Jackson, J. (2005). An inter-university, cross-disciplinary analysis of business education: Perceptions of 
business faculty in Hong Kong. English for Specific Purposes, 24(3), 293-306. 
https://doi.org/10.1016/j.esp.2004.02.004 

Jakobsen, K. V., & Knetemann, M. (2017). Putting structure to flipped classrooms using team-based 
learning. International Journal of Teaching and Learning in Higher Education, 29(1), 177-185. 

Janz, B. D., Colquitt, J. A., & Noe, R. A. (1997). Knowledge worker team effectiveness: The role of 
autonomy, interdependence, team development, and contextual support variables. Personnel 
Psychology, 50(4), 877-904. https://doi.org/10.1111/j.1744-6570.1997.tb01486.x 

Jonassen, D., & Land, S. (2012). Theoretical foundations of learning environments. Mahwah, NJ: 
Routledge. 

Kesner, R., Larson, B., & Dias, M. (2017). An applied approach to the teaching of virtual work skills 
within a business school curriculum. Ubiquitous Learning: An International Journal, 10(2), 11-29. 

Khan, M. A. (2015). Diverse issues facing the business management education: A conceptual journey. 
International Journal of Information and Education Technology, 5(4), 287-291. 

Kim, M. K., Kim, S. M., Khera, O., & Getman, J. (2014). The experience of three flipped classrooms in 
an urban university: An exploration of design principles. The Internet and Higher Education, 22, 37-
50. https://doi.org/10.1016/j.iheduc.2014.04.003 

Krackhardt, D., & Stern, R. N. (1988). Informal networks and organizational crises: An experimental 
simulation. Social Psychology Quarterly, 51(2), 123-140. https://doi.org/10.2307/2786835 

Latané, B., Williams, K., & Harkins, S. (1979). Many hands make light the work: The causes and 
consequences of social loafing. Journal of Personality and Social Psychology, 37(6), 822-832. 
https://doi.org/10.1037/0022-3514.37.6.822 

Lester, S. W., Meglino, B. M., & Korsgaard, M. A. (2002). The antecedents and consequences of group 
potency: A longitudinal investigation of newly formed work groups. Academy of Management 
Journal, 45(2), 352-368. https://doi.org/10.5465/3069351 

Letassy, N. A., Fugate, S. E., Medina, M. S., Stroup, J. S., & Britton, M. L. (2008). Using team-based 
learning in an endocrine module taught across two campuses. American Journal of Pharmaceutical 
Education, 72(5), 103. https://doi.org/10.5688/aj7205103 

Lightner, S., Bober, M. J., & Willi, C. (2007). Team-based activities to promote engaged learning. College 
Teaching, 55(1), 5-18. https://doi.org/10.3200/CTCH.55.1.5-18 

Lindsley, D. H., Brass, D. J., & Thomas, J. B. (1995). Efficacy-performance spirals: A multilevel 
perspective. Academy of Management Review, 20(3), 645-678. 
https://doi.org/10.5465/amr.1995.9508080333 

Long, H. E., & Coldren, J. T. (2006). Interpersonal influences in large lecture-based classes: A 
socioinstructional perspective. College Teaching, 54(2), 237-243. 
https://doi.org/10.3200/CTCH.54.2.237-243 

Loughry, M. L., Ohland, M. W., & DeWayne Moore, D. (2007). Development of a theory-based 
assessment of team member effectiveness. Educational and Psychological Measurement, 67(3), 505-
524. https://doi.org/10.1177/0013164406292085 

Lurey, J. S., & Raisinghani, M. S. (2001). An empirical study of best practices in virtual teams. 
Information & Management, 38(8), 523-544. https://doi.org/10.1016/S0378-7206(01)00074-X 

Machemer, P. L., & Crawford, P. (2007). Student perceptions of active learning in a large cross-
disciplinary classroom. Active Learning in Higher Education, 8(1), 9-30. 
https://doi.org/10.1177/1469787407074008 

Marks, M. A., Mathieu, J. E., & Zaccaro, S. J. (2001). A temporally based framework and taxonomy of 
team processes. Academy of Management Review, 26(3), 356-376. 
https://doi.org/10.5465/amr.2001.4845785 

McCallum, S., Schultz, J., Sellke, K., & Spartz, J. (2015). An examination of the flipped classroom 
approach on college student academic involvement. International Journal of Teaching and Learning 
in Higher Education, 27(1), 42-55. 

https://doi.org/10.1007/s40692-015-0043-0
https://doi.org/10.1177/014920639402000407
https://doi.org/10.5539/res.v7n1p35
https://doi.org/10.1016/j.esp.2004.02.004
https://doi.org/10.1111/j.1744-6570.1997.tb01486.x
https://doi.org/10.1016/j.iheduc.2014.04.003
https://doi.org/10.2307/2786835
https://doi.org/10.1037/0022-3514.37.6.822
https://doi.org/10.5465/3069351
https://doi.org/10.5688/aj7205103
https://doi.org/10.3200/CTCH.55.1.5-18
https://doi.org/10.5465/amr.1995.9508080333
https://doi.org/10.3200/CTCH.54.2.237-243
https://doi.org/10.1177/0013164406292085
https://doi.org/10.1016/S0378-7206(01)00074-X
https://doi.org/10.1177/1469787407074008
https://doi.org/10.5465/amr.2001.4845785


Australasian Journal of Educational Technology, 2020, 36(2).   

 

103 

 

McLaughlin, J. E., Roth, M. T., Glatt, D. M., Gharkholonarehe, N., Davidson, C. A., Griffin, L. M., … 
Mumper, R. J. (2014). The flipped classroom: A course redesign to foster learning and engagement in 
a health professions school. Academic Medicine, 89(2), 236-243. 
https://doi.org/10.1097/acm.0000000000000086 

McLoughlin, C., & Luca, J. (2002). A learner–centred approach to developing team skills through web–
based learning and assessment. British Journal of Educational Technology, 33(5), 571-582. 
https://doi.org/10.1111/1467-8535.00292 

Michaelsen, L., Fink, D., & Knight, A. (2002). Team-based learning: A transformative use of small 
groups in college teaching. Sterling, VA: Stylus Publishing. 

Michaelsen, L. K., & Sweet, M. (2008). The essential elements of team‐based learning. New Directions 
for Teaching and Learning, 2008(116), 7-27. https://doi.org/10.1002/tl.330 

Mitchell, G. W., Skinner, L. B., & White, B. J. (2010). Essential soft skills for success in the twenty-first 
century workforce as perceived by business educators. The Delta Pi Epsilon Journal, 52(1), 43-53. 

Mutch, A. (1998). Employability or learning? Groupwork in higher education. Education+ 
Training, 40(2), 50-56. https://doi.org/10.1108/00400919810206884 

Nelson, K. M., & Cooprider, J. G. (1996). The contribution of shared knowledge to IS group 
performance. MIS Quarterly, 20(4), 409-432. https://doi.org/10.2307/249562 

Nissen, M. E. (2005). Dynamic knowledge patterns to inform design: A field study of knowledge stocks 
and flows in an extreme organization. Journal of Management Information Systems, 22(3), 225-263. 
https://doi.org/10.2753/MIS0742-1222220308 

Pangil, F., & Chan, J. M. (2014). The mediating effect of knowledge sharing on the relationship between 
trust and virtual team effectiveness. Journal of Knowledge Management, 18(1), 92-106. 
https://doi.org/10.1108/JKM-09-2013-0341 

Parmelee, D. X., & Michaelsen, L. K. (2010). Twelve tips for doing effective team-based learning (TBL). 
Medical Teacher, 32(2), 118-122. https://doi.org/10.1002/tl.330 

Paul, P., & Mukhopadhyay, K. (2005). Experiential learning in international business education. Journal 
of Teaching in International Business, 16(2), 7-25. https://doi.org/10.1300/J066v16n02_02 

Plewa, C., Galán-Muros, V., & Davey, T. (2015). Engaging business in curriculum design and delivery: A 
higher education institution perspective. Higher Education, 70(1), 35-53. 
https://doi.org/10.1007/s10734-014-9822-1 

Podsakoff, P. M., MacKenzie, S. B., Lee, J.-Y., & Podsakoff, N. P. (2003). Common method biases in 
behavioral research: A critical review of the literature and recommended remedies. Journal of Applied 
Psychology, 88(5), 879–903. https://doi.org/10.1037/0021-9010.88.5.879  

Podsakoff, P. M., & Organ, D. W. (1986). Self-reports in organizational research: Problems and 
prospects. Journal of Management, 12(4), 531-544. https://doi.org/10.1177/014920638601200408 

Powell, A., Piccoli, G., & Ives, B. (2004). Virtual teams: A review of current literature and directions for 
future research. ACM SIGMIS Database, 35(1), 6-36. https://doi.org/10.1145/968464.968467 

Prashar, A. (2015). Assessing the flipped classroom in operations management: A pilot study. Journal of 
Education for Business, 90(3), 126-138. https://doi.org/10.1080/08832323.2015.1007904 

Preacher, K. J., & Hayes, A. F. (2008). Contemporary approaches to assessing mediation in 
communication research. In A. F. Hayes, M. D. Slater, & L. B. Snyder (Eds.), The Sage sourcebook of 
advanced data analysis methods for communication research (pp. 13–54). Thousand Oaks, CA: Sage. 

Rasiah, R. R. V. (2014). Transformative higher education teaching and learning: Using social media in a 
team-based learning environment. Procedia-Social and Behavioral Sciences, 123, 369-379. 
https://doi.org/10.1016/j.sbspro.2014.01.1435 

Rassuli, A., & Manzer, J. P. (2005). "Teach us to learn": Multivariate analysis of perception of success in 
team learning. Journal of Education for Business, 81(1), 21-27. https://doi.org/10.3200/JOEB.81.1.21-
28 

Roach, T. (2014). Student perceptions toward flipped learning: New methods to increase interaction and 
active learning in economics. International Review of Economics Education, 17, 74-84. 
https://doi.org/10.1016/j.iree.2014.08.003 

Roehl, A., Reddy, S. L., & Shannon, G. J. (2013). The flipped classroom: An opportunity to engage 
millennial students through active learning. Journal of Family and Consumer Sciences, 105(2), 44-49. 

Rutherford, M. A., Parks, L., Cavazos, D. E., & White, C. D. (2012). Business ethics as a required course: 
Investigating the factors impacting the decision to require ethics in the undergraduate business core 
curriculum. Academy of Management Learning & Education, 11(2), 174-186. 
https://doi.org/10.5465/amle.2011.0039 

https://doi.org/10.1097/acm.0000000000000086
https://doi.org/10.1111/1467-8535.00292
https://doi.org/10.1002/tl.330
https://doi.org/10.1108/00400919810206884
https://doi.org/10.2307/249562
https://doi.org/10.2753/MIS0742-1222220308
https://doi.org/10.1108/JKM-09-2013-0341
https://doi.org/10.1002/tl.330
https://doi.org/10.1300/J066v16n02_02
https://doi.org/10.1007/s10734-014-9822-1
https://doi.org/10.1037/0021-9010.88.5.879
https://doi.org/10.1177/014920638601200408
https://doi.org/10.1145/968464.968467
https://doi.org/10.1080/08832323.2015.1007904
https://doi.org/10.1016/j.sbspro.2014.01.1435
https://doi.org/10.3200/JOEB.81.1.21-28
https://doi.org/10.3200/JOEB.81.1.21-28
https://doi.org/10.1016/j.iree.2014.08.003
https://doi.org/10.5465/amle.2011.0039


Australasian Journal of Educational Technology, 2020, 36(2).   

 

104 

 

Senge, P. (1997). Sharing knowledge: the leader's role is key to a learning culture. Executive 
Excellence, 14(11), 17-19. 

Taylor, A. B., MacKinnon, D. P., & Tein, J-Y. (2008). Tests of the three-path mediated effect. 
Organizational Research Methods, 11(2), 241–269. https://doi.org/10.1177/1094428107300344 

Tsai, W., & Ghoshal, S. (1998). Social capital and value creation: The role of intrafirm 
networks. Academy of Management Journal, 41(4), 464-476. https://doi.org/10.2307/257085 

Tymon, A. (2013). The student perspective on employability. Studies in Higher Education, 38(6), 841-
856. https://doi.org/10.1080/03075079.2011.604408 

Wallace, M. L., Walker, J. D., Braseby, A. M., & Sweet, M. S. (2014). "Now, what happens during 
Class?" Using team-based learning to optimize the role of expertise within the flipped classroom. 
Journal on Excellence in College Teaching, 25(3, 4), 253-273. 

Wang, M-H., Yang, T-Y., & Wu, C-S. (2006). The impact of ISD team members' self-efficacy, team 
interaction and team trust on team effectiveness: The mediating effect of knowledge sharing. NTU 
Management Review, 16(2), 73-99. 

Wellins, R. S., Byham, W. C., & Dixon, G. R. (1994). Inside teams: How 20 world-class organizations 
are winning through teamwork. San Francisco, CA: Jossey-Bass. 

Wu, D., & Hiltz, S. R. (2004). Predicting learning from asynchronous online discussions. Journal of 
Asynchronous Learning Networks, 8(2), 139-152. 

Zellmer-Bruhn, M., & Gibson, C. (2006). Multinational organization context: Implications for team 
learning and performance. Academy of Management Journal, 49(3), 501-518. 
https://doi.org/10.5465/amj.2006.21794668 

 

 
Corresponding author: Chung-Kai Huang, hck2005@ntub.edu.tw 

Copyright: Articles published in the Australasian Journal of Educational Technology (AJET) are 
available under Creative Commons Attribution Non-Commercial No Derivatives Licence (CC BY-NC-
ND 4.0). Authors retain copyright in their work and grant AJET right of first publication under CC BY-
NC-ND 4.0. 

Please cite as: Lin, C-Y., & Huang, C-K. (2020). Understanding the antecedents of knowledge sharing 
behaviour and its relationship to team effectiveness and individual learning. Australasian Journal of 
Educational Technology, 36(2), 89-104. https://doi.org/10.14742/ajet.4549 

 

https://doi.org/10.1177/1094428107300344
https://www.jstor.org/stable/257085
https://doi.org/10.1080/03075079.2011.604408
https://doi.org/10.5465/amj.2006.21794668
https://creativecommons.org/licenses/by-nc-nd/4.0/
https://creativecommons.org/licenses/by-nc-nd/4.0/
https://doi.org/10.14742/ajet.4549

	Introduction
	TBL in business education
	While applying knowledge and skills to meaningful tasks within a team-based context, students are required to inquire, think at high levels, and solve problems via the development of self-directed abilities and problem-solving skills (Parmelee & Micha...
	Figure 1. The hypothesised model
	Methods
	Research context and participants
	Team trust generally refers to the trust relationships among members. The construct was assessed using the modified scale developed by Wang, Yang, and Wu (2006). The scale has five items and it was also rated on a 5-point Likert scale. A sample item i...
	Knowledge sharing involves the interaction and knowledge sharing behavior among team members. The construct was assessed by the eight items derived from Nelson and Cooprider’s (1996) and Senge’s (1997) studies. A sample item is “Team members often sha...
	The scale of team effectiveness was rated based on two studies (Lurey & Raisinghani, 2001; Wang, Yang, & Wu, 2006). Team effectiveness was rated on a 5-point Likert scale and had two sub-dimensions: performance and quality of work life. One item conce...
	This construct was assessed by the six items adopted from prior studies in an asynchronous computer-supported learning network context (Gomez et al., 2010). This construct was rated on a 7-point Likert scale. A sample items is “The learning quality of...

	Results
	Inter-correlations of variables
	Reliability and validity

	Structural model
	Note. Bootstrapping sample of estimation is 5,000
	Discussion
	The results of this study reveal that our research framework had a good data-model fit and the nine hypotheses are all supported. In general, evidence shows that the course design inclusion of three phases was suitable for business course delivery and...