Journal of Learning Development in Higher Education                              ISSN: 1759-667X 

Issue 20: March 2021 
________________________________________________________________________ 
 

Using Padlet in instructional design to promote cognitive 
engagement: a case study of undergraduate marketing 
students 
 

Lucy Gill-Simmen 
Royal Holloway, University of London 
 

 

Abstract 
 

This case study illustrates the incorporation of Padlet to support a learning task designed 

to promote student engagement. Padlet was introduced as a digital technology platform in 

an undergraduate marketing class for an assessment where the stakes are considered 

low, that is, a formative assessment. The previous cohort had declared it difficult to 

engage with the original assessment, which took the form of a 1000-word written piece. To 

facilitate interest and motivation in the task, Padlet was introduced with the assumption 

that students would engage more with a task if a technology-based instructional design 

was implemented. This case study examines the use of Padlet to provide a platform for 

literacy beyond the written text, aimed to increase effort and cognitive engagement. Self-

reported results indicate that students find a task supported by the use of Padlet deeply 

cognitively engaging. Padlet, as illustrated in this case study, could be used in either an in-

person or online learning environment. 

 

Keywords: Padlet; online learning tools; cognitive engagement; teaching and learning. 

 

 

Introduction 
 

Engagement is characterised by three dimensions: cognitive, emotional and behavioural. 

The concept of cognitive engagement draws on the idea of investment and includes 

students’ willingness to invest and exert effort in learning (Fredricks et al., 2004). For 

decades, technology has been known to operate as a hook which motivates students to 

participate through sustained interest and cognitive engagement (Kuh and Hu, 2001; Mo, 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  2 
 

2011; Schindler et al., 2017). Laird and Kuh (2005) identified a strong positive relationship 

between using information technology for educational purposes and involvement in 

effective educational practices such as active and collaborative learning. With the use of 

technology, students’ feelings of autonomy and cognitive engagement are elevated 

through being given an alternative method to explore a topic and to represent their 

understanding (Blumenfeld et al., 2006). Furthermore, visual representation generated 

through various modes of ICT helps learners to internalize knowledge and to learn better 

than through more traditional methods of representation such as written work (DeWitt et 

al., 2015). 

 

To promote engagement with an individual formative assessment task  ̶  a low-stakes 

learning scenario  ̶  a digital assessment was introduced. Padlet was chosen as a tool to 

support the task given that it affords knowledge development and construction, content 

aggregation and organization and offers a multi-user interface. Such Padlet capabilities 

enable flexible learning, support autonomy, and have the potential to support the active 

engagement of students in the learning process (Park, 2013). In light of the recent shift in 

many HE institutions to a blended learning approach, the use of platforms as collaborative 

and engaging learning tools in instructional design is gaining traction (Shinde, 2020). This 

case study examines the use of Padlet as a platform for a formative assessment analysing 

a chosen industry.  

 

 

Background 
 

With most students bringing a smartphone or other mobile device to class, Web 2.0 

technologies present opportunities to improve learner engagement (Ellis, 2015). As 

computer-based technology has permeated the education sector, its use in effectively 

promoting student engagement has attracted much attention in higher education due to its 

association with a number of positive academic outcomes (Schindler et al., 2017). 

Particularly in light of the recent shift to a blended learning approach, universities that fail 

to effectively integrate technology into the learning experience may miss opportunities to 

improve student outcomes. One of the key findings in the literature on technology 

implementation is the power that technology has in engaging students in relevant learning, 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  3 
 

particularly evidenced by the use of technology in increasing student motivation and 

participation (Schindler et al., 2017). Light et al. (2009, cited in Bree, 2017) suggest that 

technology is important as a means of encouraging or supporting learning, provided it has 

added value for the learner. Digital applications have been shown to have the power to 

engage and motivate learners, and in fact have the potential to increase academic 

achievement from the perspective of both the students and the educators (Courville, 2011; 

Dervan, 2014). Many technology enthusiasts argue that Gen-Z learners are ‘digital natives’ 

with sophisticated technology knowledge and skills which can potentially be harnessed for 

better learning engagement inside the classroom. However, how to gather information and 

navigate an abundance of sources still needs to be learned since academic digital literacy 

skills are distinct from those required in daily life to use technology socially (Gurung and 

Rutledge, 2014).  

 

Cognitive engagement includes the amount of effort students are willing to put into a task 

and also how long they are willing to work on it (Corno and Mandinach, 1983; Richardson 

and Newby 2006). According to Scott and Walczak (2009), the richness of multimedia 

technology goes so far as to stimulate the senses, thereby encouraging cognitive 

engagement. Understanding of cognitive engagement can be furthered by distinguishing 

amongst behaviours on a continuum between deep and shallow engagement (Greene and 

Miller, 1996). Students who exhibit behaviours that allow them to master academic work 

are seen to have deep cognitive engagement, whilst students who exhibit behaviours such 

as purely rote memorization and rituals that they perceive will help them to do well without 

developing mastery of the material are demonstrating shallow engagement. In the context 

of this case study, the use of technology to support a task promoting deep cognitive 

engagement was proposed and measured using student self-reporting.  

 

 

Case Study 
 

On a second-year undergraduate in-person Marketing Strategy course at a UK public 

research university, a difference across the cohort of 400 students was noted in terms of 

academic ability, learning approach, motivation for and confidence in learning, willingness 

to participate, spoken and written fluency, and work ethic. The cohort comprised students 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  4 
 

aged 20-22 years with a variety of nationalities – UK 55%, EU 25%, and International 

20%. In addition, it was noted, both through personal observation and through student 

evaluation, how difficult it had been for students in previous cohorts to engage with written 

tasks for an individual formative assessment. The original individual formative assessment 

method on the module was a written 1000-word industry analysis. Given the nature of the 

analysis, requiring the use of a number of analytical frameworks, a previous cohort said 

they found it difficult to write about the industry and that it would be easier to show their 

findings in tables and diagrams and in a more visual way. Students described the 

assessment as ‘boring’ and ‘hard to know how to write using the appropriate business 

level writing style’. 

 

An engaging assessment should meet the needs of a culturally and educationally diverse 

student population without compromising academic standards, instead improving 

opportunities for all students to demonstrate their acquisition of the learning outcomes. 

More specifically, the aims of an engaging assessment are to fairly evaluate students’ 

ability to meet learning outcomes, to be accessible to all students, to provide every student 

with an equal opportunity to demonstrate their achievement, to support student 

engagement and learning, and to address the needs of a diverse student population 

(Hockings, 2010). To meet the requirements of an engaging assessment, the original 

formative assessment was replaced with a more active and blended learning experience 

designed to motivate students to exert more effort in a low-stakes situation. To promote 

engagement, Padlet was identified as the most appropriate digital technology since the 

wide variety of media supported by Padlet provides a particularly rich environment for 

engaging in today's complex information environment (Table 1). 

 

Table 1. Padlet features. 

Padlet Features Impact on Learning 

Collaboration through a multi-user interface. 

Flexible and versatile for collaborative content 

sharing, collective knowledge development and 

construction. 

Provision for blogging, discussion and social 

Bookmarking for Twitter, Facebook, Slack 

 

 

• Provides tutor, self and peer assessment 

capabilities. 

• Allows for synchronous or asynchronous 

collaboration. 

• Stimulates collaborative discussion and reiterative 

learning. 

• Accommodates opportunity for autonomy, 

competence and relatedness 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  5 
 

• Promotes learner engagement. 

• Collaborative as well as independent use. 

Wide aesthetic appeal.  

Choices of wallpaper, typography and themes to 

fit a variety of writing styles from sticky notes to 

essays. 

Different layouts convey information as a square 

board, a feed of information, or as an open 

canvas. 

 

• Promotes visual learning and sense stimulation 

through the visual pin-board feature.  

• Encourages increased time spent on task through 

opportunities to showcase content in a variety of 

ways. 

• Improves information assimilation capacity and 

promotes intrinsic curiosity. 

Wide variety of media and file types supported.  

Multiple formatting options, allowing learners to 

upload files, post images, documents, videos, 

music and embed any web-based content. 

 

 

 

 

• Engages full spectrum of digital literacies. 

• Provides opportunities for learners to readily build 

and represent knowledge through multi-media 

capabilities. 

• Attached links and files appear with a stimulating 

contextual preview thus focusing learners’ 

attention. 

• Opportunity to scatter, group, and connect content 

allows for visual representation of information, 

synthesis and analysis in a variety of ways. 

Apps for most devices.  

Provides accessibility anywhere, anytime with 

instant updates and responses in real time 

 

• Multiple points of access promote user interest and 

promotes higher levels of self-pacing 

• Increases motivation to engage 

• Encourages instant participation 

 

 

Task  

At the start of the module, students were fully briefed on the objective of the assessment, 

which was to research and develop an industry analysis and to present key findings about 

the industry as a series of ideas on a Padlet wall. Students were required to choose a 

brand of interest and to conduct an analysis of the marketing environment for the industry 

sector in which the brand operates. This served as a formative exercise for a subsequent 

summative marketing plan for their chosen brand. Specifically, students were required to 

conduct a macro and micro analysis of the chosen industry and to present a synthesis of 

the current situation of the industry using specific taught analytical frameworks. As such, 

the remit for the assessment mirrored that of the former written assessment and 

assessment outcomes remained largely unchanged with the exception of additional 

assessment outcomes: technology utilisation and use of graphics and pictures. 

 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  6 
 

Students were provided with a marking rubric in advance. The rubric highlighted the five 

assessment criteria: 1. Organization and presentation of analyses, 2. Content and 

accuracy of analysis, 3. Technology utilisation, 4. Use of graphics and pictures, 5. Writing 

and Grammar. To introduce the use of Padlet as the chosen platform for their assignment, 

the class was shown the video How to use Padlet, and students were instructed to go to 

Padlet.com and then click on ‘make a Padlet’, after which their wall was ready for use. 

Students were encouraged to make some modifications to their wall, such as giving it a 

title, changing the background image, giving the wall a unique web address, and changing 

the display of posts. They were shown how to add to their wall by typing, pasting links, 

adding pictures, image and audio or video clips.  

 

Students were required to develop their Padlet over a period of five weeks, and the 

workshop instructors (four in total) had access to the Padlets in order to monitor and offer 

support in response to student progress or lack of progress. Students were asked to share 

the link to their Padlet wall with a fellow student in the group, who was required to make 

comments and to provide peer feedback halfway through the five-week period. Each 

week, students were required to work on their Padlet based on material taught in weekly 

lectures and workshops. The aim of the assignment was for students to delve deeper into 

a class-related topic, thoroughly research it (by reading articles and reviewing videos and 

websites), selectively summarize and assemble the most useful resources into a creative, 

engaging, and logically organized Padlet. After five weeks, students exported their links to 

their final Padlet to an inbox in Moodle (virtual learning environment) for assessment 

purposes. The Padlets were graded, and formative feedback provided in line with the 

rubric. Limitations sometimes associated with Padlet, such as limited editing features, 

preference for short tasks, difficulties with scrolling and difficulty organizing vast amounts 

of ideas, were not deemed to be challenges specific to this task (DeWitt and Koh, 2020). 

 

 

Methodology 

 

Immediately following submission of the Padlet assessment, students were asked to fill in 

a short questionnaire on Google Forms to self-report the extent to which they estimated 

their own levels of cognitive engagement (Greene, 2015). The cognitive engagement scale 

https://www.youtube.com/watch?v=UuzciL8qCYM


Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  7 
 

developed by Greene and Miller (1996) was adopted, and five items were adapted from 

the scale and reworded to specifically refer to the set Padlet task. Sub-scales of deep 

cognitive engagement with the task were measured, specifically self-regulation, deep 

strategy use and persistence. The questions were developed according to the sub-scales 

and measured using the following items: planning and organisation of ideas, developing 

information in new ways, introduction of new ideas, extra reading to enhance 

understanding of concepts, and continuous checking of ideas. The questionnaire 

comprised five questions on a Likert scale from 1 to 5, where 1 equates to strongly agree 

and 5 to strongly disagree. 320 students filled out the anonymous questionnaire and 

provided informed consent to share the results. The questionnaire link was made available 

through the virtual learning environment, Moodle. It was made clear that completion of the 

survey was not compulsory. Responses were transferred from Google Forms to Microsoft 

Excel 2013 for analysis. 

 

 

Findings 
 

The survey findings are shown in Table 2. It is apparent that on all cognitive engagement 

measurements, over 60% of participants self-reported that they either strongly agreed or 

agreed with the item measured. Students particularly strongly agreed or agreed (78%) that 

they checked their understanding of the industry-related concepts as they went along. 

Similarly, 75% of students either strongly agreed or agreed that, when preparing the 

Padlet, they tried to combine different pieces of information from the course material in 

new ways. It was clear that Padlet as a tool encouraged curiosity and provided the 

opportunity to present information in a new way providing an overall deeply cognitive 

learning experience. 

 

Table 2. Cognitive engagement with the Padlet task (n = 320). 

Measurement Item Strongly 

agree/Agree 

Neutral Disagree/Strongly 

disagree 

When approaching the Padlet task, I planned out 

and organised my ideas based on how I wanted 

my Padlet to look 

70% 25% 5% 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  8 
 

When preparing my Padlet, I tried to combine 

different pieces of information from the course 

material in new ways 

75% 20% 5% 

When preparing my Padlet, I tried to introduce 

interesting new ideas of my own 

60% 27% 13% 

When preparing my Padlet, if I did not understand 

a concept I came across, I did some further 

reading so I could understand it better 

68% 18% 14% 

When preparing my Padlet, I checked my 

understanding of the industry-related concepts as I 

went along 

78% 17% 5% 

 

 

Discussion  
 

The overall aim of the case study was to find a way to encourage students to engage more 

deeply with a formative assessment. Given that previous cohorts had mentioned that they 

did not engage optimally with a written task, it was decided to design the task in a more 

engaging and creative way, and to introduce a technology to support creativity and 

flexibility, thus promoting greater student engagement in the task at hand. In the survey, 

60% of students self-reported that they agreed or strongly agreed that they found the task 

cognitively engaging at a deep level across all measured items. Areas where cognitive 

engagement appeared to be particularly high were in checking understanding of specific 

concepts and in attempting to combine different pieces of information in new ways. 

 

The evidence points towards the suitability of Padlet in supporting a learning design for 

cognitive engagement. It provided an engaging learning environment by allowing for 

higher levels of self-pacing, multi-modal representation, multiple points of access, 

collaborative discussion and reiterative learning. This success in facilitating cognitive 

engagement supports findings from the literature which suggest that learning technologies, 

when used effectively, can play a key role in stimulating curiosity and interest and in 

facilitating and sustaining engagement (Arnone et al., 2011). Given the students’ active 

use of Padlet outside of timetabled hours, our case study also strengthens Fisher’s (2017) 

view that Padlet is an easy-to-use technology and can be applied to engage students in a 

number of ways both inside and outside of the classroom. Furthermore, based on the 

cognitive engagement demonstrated, this case study offers a worthy approach to overall 

assessment for learning, not solely for formative purposes as demonstrated here. 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  9 
 

Reflection and future practice 
 

What was presented here was an evidence-based scenario in which Padlet, an online e-

learning tool, could be used as an aid in a task designed to promote deep cognitive 

engagement amongst students. It was the experience of the module team that, given 

Padlet’s ease of use, the task was seamless and easy to manage from an educator 

perspective. As such, this should encourage educators to seek ways to innovate in their 

teaching methods and to consider ways in which technologies can be employed 

pedagogically to promote learning and engagement. 

 

The case also promotes exploring what other technologies could be used to support tasks 

designed to promote engagement or, alternatively, how the use of technologies might be 

used to support pedagogies of information representation and autonomous study, which, 

in themselves, serve as drivers of cognitive engagement (Smiley and Anderson, 2011). 

Padlet could also be used for other practices and to support other pedagogies. For 

instance, Padlet has been shown to improve the teacher-student relationship, increase 

motivation and self-esteem, and provide teachers with an alternative mode of 

communicating with students beyond the classroom (Rashid et al., 2019). Furthermore, 

regarding the recent shift to online teaching and a blended learning approach, Padlet 

lends itself well to this new climate, specifically given its potential for effective use in 

online, face-to-face, synchronous and asynchronous settings. 

 

In addition, research has linked not only cognitive engagement to important educational 

outcomes such as student persistence in learning, satisfaction and academic 

achievement, but also behavioural and emotional engagement (Henrie et al., 2015). Thus, 

in future it would be useful to examine the use of digital technologies to support tasks to 

potentially promote all three types of student engagement. On reflection, the introduction 

of a student-friendly technology intervention is a worthy cause to facilitate engagement on 

the part of students given the already prevalent role of technology in the lives of students 

today. However, it is important to note that technology can be used superficially and in 

ways which are of no added value to students; thus, it is vital to ask the question of 

whether the incorporation of technology into instructional design is an enabler or a 

distraction. 



Gill-Simmen Using Padlet in instructional design to promote cognitive engagement:  
a case study of undergraduate marketing students 

 

 
Journal of Learning Development in Higher Education, Issue 20: March 2021  10 
 

Reservations as to whether Padlet allows for the same level of analysis and synthesis 

associated with a written assessment were alleviated since students adequately 

demonstrated their ability to visually represent their chosen industry in a holistic way, 

indicating how both macro and microenvironment analyses of the industry impact the firm’s 

position. 

 

After the module, many students commented that they had enjoyed the Padlet task, and 

some had continued to use Padlet for other projects. It would be useful to evaluate the 

impact on the summative assessment and to examine whether a more cognitively 

engaging formative assessment leads to a higher success rate in the summative 

assessment. In summary, educators should feel free to explore ways in which digital 

technologies can be introduced to support learning design which facilitates engagement, 

motivation and participation, and above all achievement of learning outcomes.  

 

 

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S. and Panda, S. (eds.) Technology enabled learning: policy, pedagogy and 

practice. Burnaby: The Commonwealth of Learning, pp.71-84. 

 

Smiley, W. and Anderson, R. (2011) ‘Measuring students' cognitive engagement on 

assessment tests: a confirmatory factor analysis of the short form of the cognitive 

engagement scale’, Research & Practice in Assessment, 6, pp. 17-28. Available at: 

https://www.rpajournal.com/measuring-students-cognitive-engagement-on-

assessment-tests-a-confirmatory-factor-analysis-of-the-short-form-of-the-cognitive-

engagement-scale/ (Accessed 28 March 2021). 

 

 

Author details 
 

Lucy Gill-Simmen is a Senior Lecturer in Marketing. She is a Senior Fellow of the Higher 

Education Academy and is the Program Director for Royal Holloway, University of London, 

Kaplan, Singapore. 

 

https://doi.org/10.1016/j.im.2008.10.003
https://www.rpajournal.com/measuring-students-cognitive-engagement-on-assessment-tests-a-confirmatory-factor-analysis-of-the-short-form-of-the-cognitive-engagement-scale/
https://www.rpajournal.com/measuring-students-cognitive-engagement-on-assessment-tests-a-confirmatory-factor-analysis-of-the-short-form-of-the-cognitive-engagement-scale/
https://www.rpajournal.com/measuring-students-cognitive-engagement-on-assessment-tests-a-confirmatory-factor-analysis-of-the-short-form-of-the-cognitive-engagement-scale/

	Using Padlet in instructional design to promote cognitive engagement: a case study of undergraduate marketing students
	Abstract
	Introduction
	Background
	Case Study
	Task
	Methodology

	Findings
	Discussion
	Reflection and future practice
	References
	Author details