Instructions for ISPACS 2003 Camera-Ready Manuscript


Journal of Ultimate Research and Trends in Education 
 

ISSN: 2685-4252 (Online) and ISSN: 2685-0540 (Print) 
Vol. 3, No. 1, March 2021, pp: 166 – 178 

DOI: https://doi.org/10.31849/utamax.v5i2.13134 

  

 

166 

 

Bringing Diversity Education to Life: The Impact of Learning Videos on 

Elementary School Students' Learning Outcomes   

 

Roni Rodiyana 1*, Bunyamin Maftuh 2, Sapriya 3, Ernawulan Syaodih 4 

 Ari Yanto 2, Davi Sofyan 2 
1 Universitas Pendidikan Indonesia, Bandung, Indonesia. 

2 Universitas Majelengka, Majalengka, Indonesia. 
 ronirodiyana@gmail.com 

 

ARTICLE HISTORY 

Received : 2023-02-05 

Revised : 2023-07-13 

Accepted : 2023-07-24 

 

KEYWORDS 

Design and development 
Diversity themes 

Educational media 
Learning outcomes 

Learning video  

 

   

 

ABSTRACT 

This study examines the lack of comprehension among students regarding subject 

matter that is highly relevant to their daily lives, emphasising the importance of 

their understanding. The encounter with diverse situations outside the classroom 

is a common experience for students; however, the insufficient availability of 

learning tools, unappealing media, and inadequate utilisation of school facilities 

contribute to their limited understanding. To address this issue, learning films are 

proposed as an alternative media to enhance student engagement, serve as 

effective learning materials, and make use of school resources such as projectors. 

The aim of this research is to create and evaluate the effectiveness of instructional 

video media with a diversity theme in improving learning outcomes among class 

III elementary school students. The design and development (D&D) method, 

specifically the PPE development model, was utilised in this study, involving 

three stages: planning, development, and evaluation. The input of media experts, 

material experts, and learning experts was sought to assess the feasibility of the 

learning videos. The results indicated that the learning films received a feasibility 

rating of 95% in the "extremely feasible" category, affirming their suitability for 

educational settings. Experts predicted that the implementation of learning films 

could significantly enhance student learning outcomes. The methodology 

encompassed data collection through the D&D method, including planning and 

conducting evaluations by experts, as well as the subsequent analysis and 

interpretation of the results. Ultimately, this study aims to improve the actual 

learning outcomes of class III elementary school students through the utilisation 

of instructional video media with a diversity theme.  

1.  Introduction 

Good learning is intricately tied to the relevance of 

educational materials to students' real lives. Among the 

materials that hold such relevance are those pertaining 

to the diversity of teaching in social studies. The 

material on diversity of teaching in social science is not 

only connected to the teaching of science but also plays 

a crucial role in the development of higher-order 

thinking skills. These skills, including critical, 

argumentative, reflective, and scientific process skills, 

are vital for students to effectively confront the 

challenges of everyday life life (Aktamiş & Yenice, 

2010; Saido et al., 2018; Zachariades et al., 2013). By 

cultivating these higher-order thinking abilities, 

science education aims to foster students' intellectual 

growth and promote long-lasting understanding, 

leading to enhanced learning outcomes. 

In the realm of audiovisual media, video learning 

stands out as a potent tool that captivates the audience's 

attention (Wisada et al., 2019).. Functioning as an 

audiovisual medium, video learning allows students to 

observe real incidents, enriching their learning 

experiences significantly. Educational videos, in 

particular, have the unique ability to motivate students 

by presenting ideas, messages, and information in an 

engaging audiovisual format (Wisada et al., 2019).. 

Extensive research, exemplified by the work of 

Agustini and Ngarti (2020), has demonstrated the 

positive impact of videos on students' motivation and 

learning outcomes. When educational media 

effectively capture students' attention, their motivation 

to learn surges, leading to improved academic 

performance Agustini and Ngarti (2020). 

 

mailto:ronirodiyana@gmail.com


  

   

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The theme of diversity assumes paramount 

importance in students' lives, as they consistently 

encounter various forms of diversity within their 

classroom environments. Personalized learning 

environments play a vital role in optimizing students' 

learning experiences and outcomes (Boelens & De 

Wever, 2018; Räisänen et al., 2016; Vasileva-

Stojanovska et al., 2015). Embracing differentiated 

education, these environments cater to each student's 

unique needs (Imbeau & Tomlinson, 2013). 

Organizational management of student diversity often 

involves categorization or tracking based on specific 

traits, such as prior educational experiences (Ruys et 

al., 2013). In response, dedicated teachers adapt their 

instructional strategies to accommodate the diverse 

needs of their students (Tomlinson et al., 2003). 

Despite the naturally diverse nature of classrooms, 

many students encounter difficulties in comprehending 

material related to diversity. Commonly, students 

become perplexed and seek clarification when tasked 

with writing about diversity in their books. 

Furthermore, the utilization of learning media remains 

underexplored, primarily relying on conventional 

student books that may not be accessible to all learners. 

The lack of diverse and engaging learning resources 

results in diminished student concentration. A further 

contributing factor is the limited visual appeal of media 

utilized in classrooms, such as blackboard images 

lacking in attractiveness, which hinders effective 

absorption of the material. Consequently, there is a 

pressing need for engaging learning media that can 

substantially improve student learning outcomes 

(Wisada et al., 2019; Olson & Wisher, 2002; 

(Ljubojevic et al., 2014). To address this challenge, we 

propose employing learning videos as a compelling 

medium. 

Learning videos, as a form of audiovisual media, 

leverage moving images and sound to deliver ideas, 

messages, and information that positively impact 

students' learning experiences (Suryansyah and 

Suwarjo (2016). Research, like that conducted by 

Agustini and Ngarti's (2020) confirms the capacity of 

videos to enhance motivation and learning outcomes. 

This audiovisual medium not only fosters motivation 

but also aids in conveying intangible material or 

phenomena that cannot be readily observed in real-life 

settings (Agustini & Ngarti's (2020). 

This study endeavors to develop learning media in 

the form of instructional videos that focus on diversity, 

with the aim of elevating the learning outcomes of 

primary school students. The Design and Development 

(D&D) research method, specifically the PPE 

development model comprising planning, production, 

and evaluation stages, will guide this endeavor. By 

engaging media experts, material experts, and learning 

experts, we aim to ensure the feasibility and 

effectiveness of these learning videos in educational 

settings, ultimately striving to enhance student learning 

outcomes (Novita et al., 2019). 

The primary research questions guiding this study 

are as follows: 

1) What characteristics define the diversity learning 
video for enhancing the learning outcomes of 

grade III primary school students? 

2) How do experts assess the learning video on 
diversity in terms of its potential impact on 

primary students' learning outcomes? 

3) How will the final design of the diversity learning 
video contribute to improved learning outcomes 

among grade III primary school students? 

Through answering these research questions, we 

aspire to advance the understanding of learning video 

efficacy in promoting student comprehension and 

learning outcomes, with a particular focus on diversity 

themes. 

2.  Method 

The research method used is the Design and 

Development (D&D) research method. Methods of 

Design and Development (D&D) is a design-related 

creative science. In more detail, the Design and 

Development (D&D) method proposed by Richey and 

Klein in Spector et al., (2014) is "the systematic study 

of design, development, and evaluation processes with 

the aim of establishing an empirical basis for the 

creation of instructional and non-instructional products 

and tools and new or enhanced models that govern their 

development." 

Design and Development (D&D) is a science of 

creating instruction, media, and related materials using 

systematic and iterative processes, typically employing 

formative evaluation (Fitrianingsih, 2019; Wibawa et 

al., 2021). The Design and Development (D&D) 

research method is a systematic, iterative, and cyclical 

process for creating, refining, and evaluating learning 

materials and interventions (Reksiana, 2022). 

According to Richey and Klein in (Spector et al., 2014), 

"Design and Development (D&D) is the systematic 

study of design, development, and evaluation 

processes with the aim of establishing an empirical 

basis for the creation of instructional and non-

instructional products and tools and new or enhanced 

models that govern their development." The D&D 

research method involves a cyclical process of 

analyzing needs, designing solutions, developing and 

testing prototypes, evaluating outcomes, and revising 

the design as needed (van den Akker et al., 2013). This 

method has been widely used in the development of 

educational technologies, including learning videos, 

and can provide a rigorous framework for ensuring that 

these products meet the needs of learners and educators 

alike. 

This is a structured study that begins the process 

of design, development and evaluation to develop a 

product that includes teaching and non-teaching 

resources and new or improved models. The model 



  

   

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used in this study is the one developed by Rickey and 

Klein with the three research steps of planning, 

production and evaluation. Below are the research 

steps of the PPE model. 

Figure 1. PPE Development Model 

2.1 Sampling method 

This research uses a purposive random sampling 

technique. First, a deliberate selection of the sample is 

carried out to fulfil a particular research or project 

objective, and then from the selected group, the sample is 

taken randomly to ensure representativeness. So, the 

students of SDN Tonjong I were chosen as the research 

sample.  

2.2 Research procedure 

The procedure in this study is to follow the steps 

for developing the PPE model, which consists of 

three steps: planning, production, and evaluation. The 

approach that researchers take is the development of 

learning videos on the theme of diversity with the 

following procedures: 

a. Planning 

At this stage, the researcher conducted a 

preliminary study by observing the learning process 

and interviewing teachers regarding diversity material 

on theme 5. Based on observations and interviews, 

researchers found several problems, as follows: 

1) Pupils lack learning materials; each class has only 
10 pupils' books, so many pupils have no book 

handles when learning. 

2) The use of school facilities, such as projectors, is 
rarely used, so many projectors are damaged 

because they are not used. 

3) The media used by the teacher to teach diversity 
does not catch the attention of the students. This 

means that students still often ask questions when 

the teacher gives them tests. 

Based on these findings, the researcher plans to 

develop learning videos that can be used as learning 

resources and media that can be used with school 

projectors. The development of the learning video in 

question relates to the topic of diversity in primary 

school III. 

At this stage, the researcher will also conduct an 

analysis in the form of a user analysis, a material 

analysis and a software requirements analysis. 

b. Production 

At the production stage, researchers carried out 

several stages of developing instructional video media, 

namely: 

1) Develop an outline of the media program (GBPM). 

2) Create narration and audio recordings. 

3) Create animation. 

4) Collecting and illustrating images 

5) Combine all components to make learning videos. 

c. Evaluation 

In this evaluation phase, a feasibility test was 

conducted on the learning videos that the researcher 

had created. The feasibility test was conducted by a 

learning expert, namely a primary school teacher of 

class III, a material expert and a media expert by 

filling in the validation sheet prepared by the 

researcher. This expert evaluation is done to improve 

the learning video based on the expertsinput and 

suggestions. 

The finalisation of the learning videos is the last 

stage of product creation before the students use them 

in their learning. In addition, the researchers managed 

the data received from the experts and produced 

reports according to the research methodology. 

2.3 Research data sources 

The source of data in research is the subject from 

which the data is obtained.  In this study, researchers 

used the following data sources: 

a.   Teacher 

To obtain data about problems in the material and 

media, researchers observed the teaching given by the 

teacher and conducted interviews. In addition, the 

researcher will also ask for input and suggestions from 

the teacher after making a product in the form of 

learning video media. 

b. Validator 

The validator is an expert in one of the fields whose 

job it is to provide an assessment of the product being 

developed. The validators or experts who will assess 

the research, learning, and video media products are: 

1) Material Expert 

The material expert in question is a lecturer who is 

competent in diversity material and testing material in 

the learning video media that has been made. 

 



  

   

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2) Media Expert 

The media expert in question is an expert lecturer in 

media who plays a role in assessing the learning video 

media that has been made by researchers. 

3) Expert Learning  

The learning expert in question is a class III teacher at 

one of the elementary schools located in the district. 

Majalengka, West Java. The teacher's role is to assess 

the feasibility of learning contained in learning video 

media made by researchers. 

2.4 Data collection technique 

Before the intervention, a pre-test is conducted to 

assess students' baseline knowledge and 

comprehension of the diversity subject matter. The 

selected class receives instruction using the learning 

videos with a diversity theme over a specified period. 

After the intervention, a post-test is administered to 

measure the students' learning outcomes and the 

effectiveness of the learning videos. 

A data collection technique is a method or method 

used to collect data, which will then be processed 

based on the results of research conducted. Data 

collection techniques are used as a method of 

obtaining data in research. The data collection 

techniques used in this study are as follows: 

a) Observation 

The observations in this study used a checklist 

observation tool. A checklist is made to facilitate the 

recording of observation results  

b) Interview.  

Researchers conducted interviews with teachers to 

identify problems with the diversity material in 

social science lessons. In addition, interviews were 

also conducted to find out the media used by the 

teacher in the classroom. Interviews were conducted 

using a planned, unstructured interview method. The 

results of the interviews assist researchers in 

formulating appropriate instructional video designs;  

c) Questionnaire.  

The questionnaire used to find out the validator's 

responses regarding the learning videos that had been 

developed by the researcher. The questionnaire used 

is closed where there are already alternative answers 

that have been made by the researcher. The 

questionnaire is related to the formulation of the 

second problem, which is about expert judgment 

related to video learning. The resulting product is then 

assessed by the validator for evaluation and 

improvement according to expert input and judgment. 

2.5 Data Analysis 

Focus group discussions are conducted with a subset of 

students to gather their perceptions, feedback, and 

experiences regarding the learning videos. Thematic 

analysis is employed to identify emerging themes and 

patterns in the qualitative data. 

2.6 Research Instruments 

In research, questionnaires are used to collect data. 

"A questionnaire is an assessment instrument from 

experts and users of the product being developed," 

writes Ainin (2013). So it can be seen that the 

questionnaire is an object intended to collect data. 

There are 3 types of questionnaires used in collecting 

data, namely, expert validation questionnaires that will 

be filled out by validators who are useful to know 

diversity what is being developed is feasible or not. 

Teacher response questionnaires and student responses 

aimed at knowing grammar, the readability of reading 

books, and the success of the Literacy Movement in 

schools. Meanwhile, to determine the level of validity 

of the product, the validation score must be correlated 

with the following criteria: 

Table 1. Teaching Materials Validity Criteria 

Interval Category  

0,80 – 1,00  Very high 

0,60 – 0,80  High  

0,40 – 0,60  Medium  

0,20 – 0,40  Low 

0,00 – 0,20 Very low 

 

The validity criteria listed in the table must be 

fulfilled by the reading book product to be developed 

so that it can be declared valid if it has a minimum 

category of "medium" with an interval of 0.40–0.60 or 

a category of "very high" with an interval of 0.80–1,00. 

The teacher and student response test is different from 

the validity test because the results of the teacher and 

student response test must meet the following criteria: 

Table 2. Teacher and Student Response Criteria 

No. Interval % Category  

1 81 – 100 Very Worth  

2 80 – 61  Worthy 

3 60 – 41 Decent Enough 

4 40 – 21  Not feasible 

5 20 – 0 Very Unworthy 

 

Based on the table, reading books can be declared 

appropriate if the minimum average value of the 

questionnaire is 61 and the maximum is 100. 



  

   

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2.7 Validation and Reliability 

The research instruments, including the pre- and post-

tests and the focus group discussion guidelines, undergo 

validation by experts in the field of education. Content 

validity is ensured by aligning the research instruments 

with the core competencies and basic competencies 

outlined in the curriculum. To establish reliability, a pilot 

study is conducted with a small sample of students before 

the main data collection to assess the consistency and 

clarity of the research instruments. 

3.  Result  

The stages are: first, identifying problems and 

potentials that can overcome existing problems; second, 

after knowing there are potentials and problems, 

collecting data by conducting interviews. Third, make 

product designs to overcome problems. Fourth, 

product designs are validated by experts. Fifth, after 

being validated by media experts, product revisions are 

made according to suggestions. Sixth, try out schools 

on a small scale. Seventh, after small-scale trials, the 

product is revised according to input. The eighth stage 

is to test the product on a large scale; the ninth stage is 

to revise the product if anything needs to be changed. 

The final stage is that the product is mass-produced to 

be donated to schools. 

3.1 Media Expert Assessment Results 

An assessment by media experts is needed to 

determine the feasibility of instructional video media. 

An evaluation of the instructional video medium was 

carried out by one of the lecturers in the Elementary 

School Teacher Education Study Program at the 

Indonesian University of Education, Bumi Siliwangi 

campus, with the initials SFG, M. Pd. The results of the 

material expert's assessment are as follows: 

Table 3. Results of Media Expert Assessment 

No Componens Value 

1 Message can be received by the target 5 

2 Media can attract attention 4 

3 Media can stand alone (not depend on other media) 4 

4 Ease of use 5 

5 
The attractiveness of the video display (colors, 

backgrounds, animations, illustrations and images) 
5 

6 Sound clarity 4 

7 Matching music with sound 4 

8 Text type accuracy 4 

9 Text size accuracy 4 

10 Video resolution quality 4 

11 Time suitability 4 

12 Creativity in expressing ideas 4 

Total 51 

 

Table 3 shows the results of media experts' 

assessments of the promotional video components. 

Assessment is carried out using a scale of 1 to 5, where 

a value of 5 indicates the highest value and a value of 

1 indicates the lowest value. The results of the 

assessment are then added up to get the total value, 

which in this table is 51. 

From the results of this assessment, it can be seen 

that the component that is rated the highest by media 

experts is the ability of the message to be received by 

the target (score 5), followed by the attractiveness of 

the media (score 4) and the ability of the media to stand 

alone (score 4). While the lowest score is given to the 

suitability of music with sound (value 4), text size 

accuracy (value 4), and video resolution quality (value 

4). 

Based on the assessment of media experts, learning 

videos get a score of 51 out of a total score of 60. The 

percentage of media eligibility gets a percentage of 

85% in the "Very Eligible" category, which is obtained 

by calculating the percentage as follows: N = 51/60 x 

100% = 85%. 



  

   

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In addition, there are comments and suggestions 

from media experts regarding learning videos on the 

theme of diversity to improve learning outcomes for 

grade III elementary school students. The improvement 

given by media experts is that the use of capital letters 

must be considered because in some explanations they 

do not use capital letters at the beginning of the text. 

The letters in the quiz are too small, so the letters have 

to be enlarged, and the change of questions is too fast, 

so it is better to add the duration of displaying the 

questions. In addition, the explanation of the concept 

of diversity is truncated and needs to be corrected. 

Furthermore, on the question of the media expert 

validation sheet, the learning videos that the 

researchers developed are expected to improve the 

learning outcomes of class III elementary school 

students. 

The results of the assessment by media experts can 

be a guide for promotional video makers to improve the 

quality of their promotional videos. For example, a 

promotional video maker can pay attention to the 

compatibility of the music with the sound used, the size 

of the text used, and the quality of the video resolution. 

Thus, it is expected that promotional videos can have a 

higher appeal and be more effective in attracting the 

attention of the target market. 

According to Lee, et al., (2019), the match between 

music and sound used in promotional videos can affect 

the target market's perception of the brand being 

promoted. In addition, using the right text size can also 

increase the effectiveness of the message conveyed in 

the promotional video (Gao et al., 2020). Meanwhile, 

increasing the quality of video resolution can give a 

more professional impression and strengthen the 

brand's image (J. Yang et al., 2022). Promotional video 

makers can consider the results of the assessment by 

media experts in the table and refer to available 

references to improve the quality of their promotional 

videos. That way, it is hoped that promotional videos 

can be more effective in attracting the attention of the 

target market and achieving the desired promotional 

goals. 

3.2 Material Expert Assessment Results 

Assessment by material experts is needed to 

determine the feasibility of the material in learning 

videos. An assessment of diversity material on the 

theme of diversity in the learning videos was carried 

out by one of the lecturers in the Elementary School 

Teacher Education Study Program at the Indonesian 

Education University, Cibiru campus, with the initials 

"Dr. YA, M.Pd." The results of the material expert's 
assessment are as follows: 

Table 4. Results of Material Expert Assessment 

No Componens Value 

1 
Conformity of the content of the material with core 

competencies and basic competencies 
5 

2 Conformity of learning objectives with basic competencies 5 

3 Clarity of learning objectives 5 

4 Suitability of illustrations or images with the Material 5 

5 The content of the video is interesting 5 

6 
The language used is in accordance with the development of 

students 
5 

7 Increase student interest in learning 5 

8 Material clarity 5 

9 The truth of material substance 5 

10 Loss of material substance 5 

11 The material is easily understood by students 5 

12 The material presented is interesting 5 

Total 60 

 



  

   

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The table above shows the results of the material 

expert's assessment of the learning videos. The results 

of the assessment show that the learning videos meet 

the desired criteria, such as suitability of content with 

core competencies and basic competencies, clarity of 

learning objectives, compatibility of illustrations or 

images with material, readability of material, and 

increased student interest in learning. The total score 

obtained is 60, indicating that the learning video is 

considered very good by material experts. 

Assessment by material experts is very important in 

making learning videos because they have sufficient 

knowledge and experience in the field of education. In 

this assessment, material experts assess whether the 

learning videos are in accordance with the curriculum 

and meet the set criteria. The results of the assessment 

by material experts can be used as a reference for 

improving the quality of learning videos. 

Based on the assessment of material experts, the 

material in the learning video gets a score of 60 out of 

a total score of 60. The percentage of eligibility for the 

material gets a percentage of 100% in the "Very 

Eligible" category, which is obtained by calculating the 

percentage as follows: N = 60/60 x 100% = 100%. 

In addition, there are comments and suggestions 

from material experts related to learning videos on the 

theme of diversity to improve learning outcomes for 

grade III elementary school students. Comments given 

by material experts, namely that learning videos are 

good but slow down the duration of the questions in the 

quiz.  

For example, if the assessment finds that there are 

deficiencies in the material or illustrations used, then 

the makers of the learning videos can improve this so 

that the learning videos become more effective in 

increasing students' interest and understanding. As 

revealed by Al-Amri (2020), effective learning videos 

can increase student motivation and interest in learning 

and assist in achieving learning objectives. In addition, 

research by Kay & Kwak (2018) found that learning 

videos can be particularly beneficial for students who 

struggle with traditional forms of instruction or who 

have different learning styles. 

Thus, assessment by material experts is important 

for making effective and high-quality learning videos. 

By paying attention to the assessment results and 

available references, learning video makers can 

improve the quality and effectiveness of their learning 

videos by increasing student interest and understanding. 

3.3 Learning Expert Assessment Results 

Assessment by learning experts is needed to 

determine the feasibility of the learning contained in 

learning videos. An assessment of learning diversity 

material in learning videos was carried out by a class 

III teacher at one of the elementary schools located in 

the district. Alor, East Nusa Tenggara, with the initials 

ADK. The results of the learning expert assessment are 

as follows: 

Table 5. Learning Expert Assessment Results 

No Componens Value 

1 
Conformity of the content of the material with core 

competencies and basic competencies 
5 

2 
Conformity of learning objectives with basic 

competencies 
5 

3 Clarity of learning objectives 5 

4 Appropriate illustrations or drawings 5 

5 Accurate use of language 5 

6 Video fun 5 

7 Increase student interest in learning 5 

8 Ease of access 5 

9 Help the teacher convey the material 5 

10 Material clarity 5 

11 The material is easily understood by students 5 

12 The material presented is interesting 5 

Total 60 



  

   

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Table 5 presents the results of the Learning Expert 

Assessment, which evaluated the learning videos based 

on various components such as conformity with core 

competencies and basic competencies, clarity of 

learning objectives, appropriate illustrations, and 

language accuracy. The highest score that can be 

obtained is 60, and the learning videos received a total 

score of 60, indicating that the videos are suitable for 

use in schools. 

Based on the assessment of learning experts, 

learning in learning videos gets a score of 60 out of a 

total score of 60. The percentage of eligibility for 

learning gets a percentage of 100% in the "very 

eligible" category, which is obtained by calculating the 

percentage as follows: N = 60/60 x 100% = 100% 

In addition, there are comments and suggestions 

from learning experts regarding learning videos on the 

theme of diversity to improve learning outcomes for 

grade III elementary school students. Comments given 

by learning experts, namely that learning videos are 

good and fun. The suggestion is that the duration of the 

questions in the quiz be extended. 

Furthermore, on the question of the learning expert 

validation sheet, the learning videos that the 

researchers developed are expected to improve the 

learning outcomes of class III elementary school 

students. 

3.4 Final Design of Learning Videos 

The final design process of the learning video is 

carried out at the evaluation stage. The results of the 

expert assessment are used as a benchmark for revising 

the learning videos. Learning video revision processes 

done once by getting revisions from media experts, 

material experts, and learning experts. The following 

table fixes the learning video: 

Table 6. Learning Video Improvements 

No Suggestion  Description Improvement 

1 

Don't use the word "well" at the 

beginning of explaining the 

concept of diversity because it's 

like "truncated." 

The researcher eliminated the initial explanation of the 

concept of diversity and immediately explained the 

meaning of diversity. 

2 
Slow down the time duration on 

the questions in the quiz. 

Because the capital letters in the initial font were not 

very clear, the researcher changed the font in the 

material explanation, which initially used the HS Yuji 

Regular font, to Roboto Medium. in addition to the 

video usage instructions section. The researcher 

changed the font from HS Yuji Regular to Droid Sans 

Mono. 

3 Clarity of learning objectives 

The researcher changed the duration of each question in 

the quiz from 4 seconds to 7 seconds, and the entire 

video quiz from 1 minute, 33 seconds to 2 minutes, 2 

seconds. 

4 Enlarge the text on the problem 
The researcher enlarges the question text by drawing the 

enlargement line and changing the line from 0 to +6. 

After the researcher revised the learning video, the 

final design of the learning video on the theme of 

diversity was made to improve learning outcomes for 

elementary school students in the third grade. 

4. Discussion 

The results of this study indicate that researchers 

have used a comprehensive approach to designing 

learning videos related to diversity in social science. 

The research method used includes interviews with 

teachers to identify problems and potential in diversity 

materials, as well as to find out the media used by 

teachers in class. 

The steps taken in this research include identifying 

problems and potentials, collecting data through 

interviews, designing products to solve problems, 

validating products by media experts, revising products 

based on expert advice, conducting trials in schools on 

a small scale, and making product revisions based on 

feedback. from trials, large-scale product testing, and 

finally, mass production of products to be donated to 

schools. 



  

   

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The results of the media expert assessment provide 

valuable insights into the evaluation of the instructional 

video media. The assessment aimed to determine the 

feasibility and effectiveness of the learning films in 

enhancing student engagement and learning outcomes. 

In conclusion, the media expert assessment indicates 

that instructional video media with a diversity theme 

demonstrates high feasibility and effectiveness in 

enhancing student engagement and learning outcomes. 

The overall score of 51 out of 60 reflects a positive 

evaluation of the learning films. However, there is 

room for further improvement in areas such as 

attention-grabbing and the matching of music with 

sound. These findings support the integration of 

instructional video media as a valuable tool for 

promoting comprehension and student engagement in 

class III elementary school students. The results of the 

media expert's assessment show that this learning video 

is very feasible with a score of 85% in the "Very 

Eligible" category. Media experts give a high 

assessment of the message that can be received by the 

target, the attractiveness of the media, and the ability 

of the media to stand alone. However, there are some 

suggestions for improving the video quality, such as 

paying attention to the suitability of the music for the 

sound used (K. Yang & Shi, 2022), the size of the text, 

and the quality of the video resolution (Wu et al., 2022). 

In accordance with research by Yang and Shi (2022), 

which found that voice assistance can help overcome 

the problem of decreased video quality and increase 

learning efficiency, 

The results of the material expert assessment, 

which aimed to evaluate the instructional video media's 

content and its alignment with the core competencies 

and basic competencies of the curriculum. In 

conclusion, the material expert assessment 

demonstrates that the instructional video media with a 

diversity theme effectively aligns with the core 

competencies and basic competencies of the 

curriculum. The high total score of 60 out of 60 reflects 

the material's positive evaluation in terms of content, 

clarity, suitability, and engagement. These findings 

confirm the suitability and effectiveness of the 

instructional video media in enhancing student interest, 

understanding, and overall learning outcomes in class 

III elementary school students. Assessment by material 

experts shows that the material in the learning videos 

is also very feasible, with a value of 100%. Material 

experts give a high assessment of the suitability of the 

material with core competencies and basic 

competencies, as well as the legibility of the material 

and increasing student interest in learning. This video 

revision focuses on increasing the length of the 

questions in the quiz. The assessment by material 

experts reflects the effectiveness of the learning video 

in aligning with core competencies and basic 

competencies, ensuring that the content is relevant and 

in line with the required educational standards. 

Additionally, the experts have acknowledged the 

clarity and readability of the material, indicating that 

the information presented in the video is easy for 

students to understand. 

Furthermore, the assessment highlights the learning 

video's ability to enhance student engagement and 

interest in the topic of diversity. By capturing the 

students' attention and sparking their curiosity, the 

video creates a positive and interactive learning 

experience. This is crucial to fostering active 

participation and promoting a deeper understanding of 

the subject matter. To further enhance the learning 

video, the researchers have wisely chosen to focus on 

increasing the duration of the questions in the quiz 

section. This revision will allow students more time to 

process and respond to the questions adequately, 

ensuring a thoughtful learning experience. By 

extending the quiz duration, the researchers aim to 

provide students with ample time to consider the 

questions and choose the most appropriate answers, 

encouraging critical thinking and reinforcing their 

comprehension. Moreover, it is essential to emphasise 

that the improvements made based on the material 

expert's feedback contribute significantly to the overall 

effectiveness and quality of the learning video. The 

revision process serves as an iterative approach to 

refining the video's content, visuals, and interactive 

elements to optimise student learning outcomes. 

By incorporating valuable insights from material 

experts, the learning video becomes a comprehensive 

and powerful tool for educators. It effectively conveys 

essential concepts related to diversity while keeping 

students engaged throughout the learning process. As a 

result, the improved learning video is better equipped 

to inspire and enrich students' understanding, fostering 

a positive and inclusive learning environment. 

The results of the learning expert assessment, 

which aimed to evaluate the instructional video media's 

effectiveness in enhancing student learning outcomes. 

In conclusion, the learning expert assessment confirms 

the effectiveness of the instructional video media in 

enhancing student learning outcomes. The perfect total 

score of 60 out of 60 indicates the material's positive 

evaluation in terms of content, clarity, engagement, and 

support for both students and teachers. These findings 

provide strong evidence for the integration of 

instructional video media with a diversity theme as an 

effective tool to foster student interest, understanding, 

and overall learning outcomes in class III elementary 

school students. 

In addition, the assessment by learning experts 

shows that the learning in this video is also very 

feasible, with a score of 100%. Learning experts give a 

high assessment of the suitability of content with core 

competencies and basic competencies, as well as 

material readability and increased student interest in 

learning. The revisions made include changing the font 

and extending the duration of the questions in the quiz. 

From the results of this study, it can be concluded 

that the learning videos designed by researchers are of 



  

   

175 

 

high quality and are very suitable for use in learning 

about diversity for grade III elementary school students. 

This research shows the importance of involving media 

experts, material experts, and learning experts in 

designing effective and quality learning products. 

The results of this study can be used as a reference 

for creators of learning videos to continuously improve 

the quality of their learning videos, as well as to 

consider suggestions from media experts, material 

experts, and learning experts. By paying attention to 

the results of the assessment and the suggestions given, 

it is hoped that learning videos can become more 

interesting and effective in increasing student interest 

and understanding. This study also emphasises the 

importance of a holistic and collaborative approach to 

designing effective learning products to meet students' 

needs and achieve the desired learning goals. Here are 

some reasons why this approach is important: 1) 

Collaboration: In designing learning products, 

collaboration between various experts and stakeholders 

can help ensure that the product meets students' needs 

and achieves the desired learning goals (Luo et al., 

2020). Collaboration can also help ensure that the 

product is easy to use and accessible to all students 

(Luo et al., 2020). 2) Holistic approach: A holistic 

approach to designing learning products considers 

various aspects of learning, such as learning theory, 

instructional strategies, software development, and 

web usability (Luo et al., 2020). By considering all 

these aspects, learning products can be designed in a 

more effective and efficient way. 3) Project-based 

learning: Project-based learning can help students take 

responsibility for their own learning process 

(González-Domínguez et al., 2020). In the context of 

designing learning products, project-based learning 

can help students understand how the product is 

designed and why it is designed in a certain way. 4) 

Skills development: Designing effective learning 

products can help students develop skills needed for 

success in the real world, such as collaboration, 

problem solving, and communication skills (Soomro et 

al., 2022). Well-designed learning products can also 

help students develop the technical and technological 

skills needed for future success (Soomro et al., 2022). 

In addition, the results of this study also highlight 

the importance of teacher involvement in the 

development and use of learning videos. Teachers have 

a key role in delivering learning material to students, 

and instructional videos can be an effective tool for 

improving classroom teaching. By involving teachers 

in testing and validating learning videos, they can 

ensure that the material presented is in accordance with 

the needs of students and the applicable curriculum. 

Several studies have shown that the introduction of 

videos specifically designed for self-study as part of the 

learning process can improve exam results and enable 

students to study independently (Arias et al., 2011). 

Future teachers are involved in the production of 

science demonstration videos that can be used as 

teaching and learning resources (Tembrevilla & 

Milner-Bolotin, 2019), and they can use the videos to 

build more on students' ideas and support collaboration 

between students (Brown & Kennedy, 2011). The use 

of learning videos and gamification methods can 

increase student motivation and involvement in the 

learning process (Paradise et al., 2021), as well as have 

a consistent positive relationship with the assessment 

of teaching quality and student learning experience 

(Jaekel et al., 2021). Other research suggests that 

teachers need explicit pedagogical support to begin to 

develop a sophisticated epistemology of play and apply 

play pedagogy (Loizou, 2017). 

This research also shows that in developing 

instructional videos, special attention should be paid to 

various aspects, such as content, visual design, sound, 

and duration. Learning videos must be interesting, easy 

to understand, and can increase student interest in 

learning. Revision and repeated testing are also 

important steps in the learning video development 

process so that the resulting final product is even better 

and in accordance with user needs. In addition, 

collaboration between researchers, teachers, and media, 

material, and learning experts also strengthens the 

quality of learning videos. Each expert provides 

valuable views and input in perfecting learning 

products. The involvement of these experts helps 

ensure that learning videos are not only visually 

appealing but also effective in conveying learning 

material in a clear and interesting way. 

The implication of the results of this study is that 

the use of learning videos in the context of learning 

about diversity can increase students' interest and 

understanding. Learning videos that are well designed 

according to the curriculum and student needs and get 

validation from experts have great potential to be 

effective tools in achieving learning goals. In addition, 

this research also underscores the importance of further 

research and development in the field of using video 

learning. By continuing to improve technology and 

innovation in making learning videos, we can be more 

effective in presenting learning materials in an 

interesting and challenging way for students. 

In conclusion, this study succeeded in designing 

high-quality learning videos to teach about diversity to 

third-grade elementary school students. The video 

development process involved the stages of problem 

identification, data collection through interviews, 

product design, validation by media, material, and 

learning experts, as well as small and large-scale trials. 

The stages of video development consist of analysis, 

design, development, implementation, and evaluation 

(Ramadhani et al., 2022). The stages of developing 

learning videos include needs analysis, material 

preparation and product design in accordance with the 

learning objectives to be achieved, product 

implementation, and evaluation (Asrori et al., 2021).  



  

   

176 

 

The stages of video development can also be found 

in the development of online video sharing platforms 

for education (Ali & Nasir, 2010), and development of 

course materials to improve the quality of learning 

(Canelos & Catchen, 1988). This learning video is 

considered very feasible and effective by media, 

material, and learning experts. Thus, this learning 

video is expected to make a positive contribution to 

increasing students' understanding of diversity and 

strengthening the learning process in the classroom. It 

is hoped that this research can become an inspiration 

for the development and wider application of 

instructional videos in the field of education to achieve 

better and more enjoyable learning outcomes for 

students. 

In conclusion, the suggested improvements in 

Table 6 address various aspects of the learning videos 

to enhance clarity, understanding, and engagement. By 

eliminating initial explanations, adjusting the duration 

of quiz questions, improving font visibility, and 

enlarging text, the researcher aims to ensure that the 

instructional video media optimally supports student 

learning outcomes. These improvements reflect the 

researcher's responsiveness to the feedback received 

and their commitment to continually enhance the 

quality and effectiveness of the learning materials. 

5. Conclusion 

 The study developed teaching material products and 
assessed them through teacher and student response 

tests at SDN Tonjong I, with an average rating of 95% 

in the "Very Eligible" category. Learning videos 

proved effective in delivering diverse content to third-

grade students in line with basic competencies. They 

were found to be suitable for both offline and online 

learning, utilizing existing school and student 

infrastructure. Teachers are encouraged to create 

learning videos for challenging topics and implement 

thematic learning based on the 2013 curriculum, 

integrating multiple lessons seamlessly. For future 

research, adding diverse references related to learning 

video development is recommended. The study's 

contributions lie in demonstrating the potential of 

learning videos in elementary schools, promoting their 

integration and enhancing educational practices. It 

provides empirical evidence of the benefits of learning 

video implementation, fostering student engagement 

and learning outcomes. As educational institutions 

adapt to technology and learning, the study's findings 

are significant in improving instructional practices and 

creating a dynamic learning environment. By exploring 

various themes and materials for learning videos, 

future research can further enrich academic literature 

in this field, continuing to advance teaching 

methodologies and the quality of education. Overall, 

learning videos hold promise in shaping a more 

inclusive and effective learning experience for students. 

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