International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 14, no. 12, 2020


Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

Edu-Kit “Our Coffee” Development on Problem Based 

Learning Model for Vocational Agribusiness and 

Agrotechnology Programs on Material  

Separation Mixture  

https://doi.org/10.3991/ijim.v14i12.15571 

Sofiana Nur Fadilah, Siti Marfu’ah, Surjani Wonorahardjo() 
State University of Malang, Malang, Indonesia 
surjani.wonorahardjo@um.ac.id 

Abstract—Student achievement in chemistry is relatively low because 

chemistry topics are not integrated with students’ expertise programs. The lack 

of variation in teaching material and learning model also reduces the motivation 

to study chemistry. One of the science-chemistry materials in vocational high 

schools is separation of mixture, taught in the agribusiness and agro technology 

specialization programs. Many business sectors such as cafes are starting to 

stand in the community, requiring coffee serving skills and also knowledge 

about coffee that can be viewed from the chemistry side. Chemical changes due 

to coffee cultivation and the processes through which coffee can be consumed 

can be learned through interactive and communicative teaching materials.  

One way to present and integrate coffee topics in learning is to develop an 

Edu-Kit which contains problems in coffee that are integrated with separation 

of mixture topic. Separation of mixture is contained in the 2013 Curriculum. 

The choice of problem-based learning models is assessed according to the char-

acteristics of vocational learning, which is to present real problems and solve 

them while learning the concepts needed. The Edu-Kit development uses the re-

search and development (R&D) method of Borg and Gall. E-book was chosen 

as an application in the development of Edu-Kit which includes text, sound, pic-

ture and video. Validation data were collected from 2 validators and readability 

tests by students. Data were analyzed using quantitative and qualitative tech-

niques. The effectiveness of the Edu-Kit uses quasi experimental, pretest and 

posttest designs. There were 62 samples determined by the saturation sampling 

technique. The sample is divided into two classes, namely the experimental and 

control classes. Edu-kit effectiveness from posttest scores, analyzed using the 

Mann Whitney U Test using SPSS. The results of Edu-kit development ob-

tained an average percentage of validation of 91.90% with very decent criteria. 

While the results of the effectiveness test showed that the use of Edu-kit made 

students' understanding better in mixed separation material. 

Keywords—Edu-Kit, Coffee, Problem Based Learning, Separation of mixture 

topic, Vocational High School 

iJIM ‒ Vol. 14, No. 12, 2020 41

https://doi.org/10.3991/ijim.v14i12.15571%0d
mailto:surjani.wonorahardjo@um.ac.id


Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

1 Introduction 

Vocational High School (VHS) is an educational institution that aims to prepare 

students to work in a field, equipping with science, technology and art to be able to 

develop themselves independently or at a higher level [1][21]. Specific subjects at 

VHS, including normative, adaptive, and productive [1]. One productive subject is the 

production of plantation and herbal commodity processing, which requires basic 

knowledge of chemistry. Studying chemistry in vocational schools is related to nature 

so that it is not only the mastery of knowledge about facts, concepts or principles. But 

it also becomes a means of applying knowledge in daily life [21]. One of the chemis-

try materials in VHS that is related to daily life is mixed separation. Although related 

to daily life, students still have difficulty in understanding mixed separation. First, due 

to students' understanding in learning the basic principles of the separation method 

and how the separation process occurs is still low [2]. For example, in the distillation 

separation technique, students only know the basics of distillation and distillation tool 

drawings without understanding how the processes and instruments are used in the 

distillation technique. Second, learning in schools is still teacher-centered, while stu-

dents are less actively involved in the concept discovery process [3]. Third, in the 

learning process teachers only prioritize the final product as the only aspect of as-

sessment without regard to other aspects such as aspects of attitudes and processes 

that are in accordance with the nature of science [4]. 

The material of mixed separation is related to the subject matter of the production 

of seasonal plantations such as cocoa, coffee, pepper, and candlenut which are learned 

in vocational agribusiness and agrotechnology programs, from land preparation to 

post-harvest handling. However, the delivery of mixed separation material is less 

integrated with plantation crop production subjects [5]. This causes students to be less 

interested in chemical materials because they think chemistry is not related to agri-

business expertise programs. The topic of cocoa or coffee in the subject of seasonal 

estate crop production is a topic that’s familiar to students. However, they assume that 

the content of coffee is only caffeine, even though coffee have other ingredients that 

cause different tastes. Differences in regional origin, type of coffee, caffeine content, 

and how to brew coffee can produce different flavors and aromas of coffee [6]. This 

proves that chemistry is related to agribusiness expertise programs, especially in 

mixed separation materials.  

Submitting the previous material such as differences in elements, compounds and 

mixtures can make it easier for students to learn the separation of the mixture [7]. 

Providing apperception related to seasonal crop production material, such as the work 

of a barista can increase student motivation. And the existence of experimental activi-

ties that can provide direct learning experience in learning to separate the mixture. 

Learning experiences like this are still lacking in the teaching materials used at 

school. The majority of teaching materials available are still limited to the material 

description and drawing of the separation tools without further explanation related to 

the process of the separation [22]. In addition, teaching materials do not link between 

chemical materials and seasonal plant production materials. This causes students to 

feel that chemistry is not important, because it is not related to productive agribusi-

42 http://www.i-jim.org



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

ness subjects [8]. Therefore, it is necessary to develop chemical teaching materials 

that support and cover a subject in an agribusiness and agrotechnology expertise pro-

gram. One form of supporting teaching materials is Coffee Edu-Kit. 

Edu-Kit (Education Kit) is one of the educational tools to facilitate certain topics in 

the student environment that can be included in the school curriculum. The 2013 cur-

riculum policy has elaborated students’ abilities on the dimensions of life skills, col-

laboration, critical thinking and creative thinking [9]. But the reality explains that 

many curriculum implementations are out of context and are not oriented towards 

achieving abilities in understanding chemistry. But it is more focused on achieving 

competency targets that are described in academic values alone [10]. In addition, the 

2013 curriculum is also related to the demands of the Industrial Revolution 4.0. The 

Industrial Revolution 4.0 is a strategic and drastic change about the production pat-

terns that collaborate people, technology/machines and big data [11]. 

Therefore, if learning is based on the 2013 curriculum and the Industrial Revolu-

tion 4.0, teachers must make the learning process more interesting and enjoyable and 

can improve life skills, collaboration, critical thinking and creativity [23]. One way 

that can be used is the use of technology-based teaching materials that aim to increase 

learning motivation, reduce boredom, and can increase understanding [24]. One form 

of technology-based teaching material is e-book [12]. E-book is an application that 

can be used to develop teaching materials with a digital display that is equipped with 

text, image, and sound.  

Besides the importance of using teaching materials, the use of learning methods al-

so needs to be considered. Learning methods that must be used are student-centered 

and constructivist. One of the models is Problem Based Learning, consisting of five 

stages, namely problem orientation, organizing student learning, independent or group 

investigations, developing and presenting results, and evaluating problem solving 

processes [13]. The Problem Based Learning model is suitable for use in learning in 

Agribusiness Vocational Schools, because the focus of Problem Based Learning 

(PBL) is to present real problems or simulations to students. Then students are asked 

to find a solution through a series of research and investigation activities (identifying 

problems, collecting data, using data) based on theories, concepts, principles learned 

from various fields of science [14]. PBL links hard skills, critical thinking skills, col-

laborates, seeks information, obtains and evaluates data, organizes and maintains data, 

interprets and communicates findings [25]. Thus, students’ cognitive abilities in rea-

soning and critical thinking can develop. Likewise, the affective development of stu-

dents has increased with the ability to work in teams, empathy and respect for the 

viewpoint of others [15].  

Based on these problems, it is very important to develop coffee Edu-kit teaching 

materials on mixed separation material with technology-based problem-based learning 

models. This research and development is expected to increase students’ understand-

ing of mixed separation material and integrated with expertise program material. 

iJIM ‒ Vol. 14, No. 12, 2020 43



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

2 Methodology 

2.1 Development of Edu-Kit 

The outline of the research and development (R&D) model in this study is ex-

plained according to Figure 1. 

 

Fig. 1. Scheme of Research and Development (R&D) Method 

The development of teaching materials will use a research and development (R&D) 

model from Borg and Gall (1989), which consists of 10 stages. By Sukma-dinata 

(2006) grouped into 3 stages, namely: 1) initial stage, (2) development stage, (3) test-

ing phase.  

44 http://www.i-jim.org



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

Before teaching materials are used for readability tests for students and trials in 

class, content validation is done first. The validators of teaching materials are experi-

enced chemistry lecturer and teachers. The instrument used was a validation question-

naire with an assessment component in the form and appearance of teaching materi-

als. Quantitative validation questionnaire analysis uses a Likert scale with values 4, 3, 

2, and 1. Assessment by the validator is transformed on a scale of values adjusted to 

the eligibility criteria for teaching materials in Table 1. While qualitatively obtained 

from the results of suggestions and comments from the validator. 

Table 1.  Eligibility Criteria for Teaching Material 

Scale Criteria Percentage Description 

1 Very less 0-55 Revision 

2 Less 56-70 Needs revision 

3 Worth 71-85 Partial revision 

4 Very worth 86-100 No revision needed 

 

The percentage of eligibility for teaching materials can be calculated using the 

formula. 

 𝑃 =
∑ 𝑥

∑ 𝑥𝑖
 (1) 

Description: 

P = percentage of score validator’s answer 

∑ 𝑥 = total score of the validator’s answer 
∑ 𝑥𝑖 = highest score 
For validation of competency test questions, the assessment is reviewed from 3 

domains namely: material domain, constructive, and language domain assessment. 

The competency test questions are tested first to determine the level of difficulty, the 

difference test, validity, and reliability. The trial was conducted on students of class 

XI Vocational High School program. 

2.2 Effectiveness of Edu-Kit 

This study uses a quasi-experimental design, posttest only involves two classes, the 

experimental class and the control class. The experimental class uses teaching materi-

als that are developed, while the control class uses teaching materials at school. The 

purpose of this design is to determine student achievement in the experimental class, 

test results are analyzed to determine differences in the average value of students in 

the experimental class and the control class. The experimental research design is 

shown in Table 2. 

Table 2.  Research Design 

Class Pre test Treatment Post test 

Experiment O X O 

Control O - O 

iJIM ‒ Vol. 14, No. 12, 2020 45



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

Description: 

O = observation (measurement) after treatment 

X = independent variable (teaching material as a result of development) 

To determine the effectiveness of teaching materials developed by comparing post-

test average scores and the percentage of achievement of minimum graduation criteria 

between the experimental and control classes. The minimum graduation criterion is 

the lowest criterion for stating student achievement. To find out significantly that the 

two classes showed differences in learning outcomes, a t-test was used using SPSS for 

windows programming. Calculation of the average post-test score and the percentage 

of achievement of the minimum passing criteria using the following formula. 

 𝐴𝑣𝑒𝑟𝑎𝑔𝑒 𝑝𝑜𝑠𝑡𝑡𝑒𝑠𝑡 𝑠𝑐𝑜𝑟𝑒 =
number of grade by student

number of students
 (2) 

%𝑀𝑎𝑠𝑡𝑒𝑟𝑦 𝑙𝑒𝑎𝑟𝑛𝑖𝑛𝑔 =
number of student reaching KKM 

total number of students
 × 100% (3) 

3 Result and Discussion 

Basic competence of mixed separation material includes prerequisite material (ma-

terial classification), definition and purpose of separation, qualitative and quantitative 

analysis, separation methods covering basic principles, tools and processes of separa-

tion, and application of separation in agriculture and other fields. This mixed separa-

tion material is associated with productive subjects namely the production and pro-

cessing of plantation and herbal commodities. The results of developing Edu-kit in 

mixed separation material with problem-based learning model for vocational agri-

business and agrotechnology programs can be described as follows: 

Student orientation to problems. The first activity carried out in this stage is to ex-

plain the learning objectives to be achieved by the teacher, then convey related logis-

tical needs, propose a problem that must be solved by students, motivate students to 

be directly involved to carry out problem solving activities of their choice. The result 

of the problem orientation phase is presented in Figure 2. 

 

  

Fig. 2. The result of the problem orientation phase  

46 http://www.i-jim.org



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

Organizing students to learn. The teacher can perform his role to help students in 

defining and organizing learning tasks related to the problem presented. The result of 

the organizational problem phase is presented in Figure 3. 

 

 

Fig. 3. The result of the organizational 

problem phase 

Fig. 4. The result of the investigation  phase 

Guide individual and group investigations. The teacher makes an effort to encour-

age students to gather relevant information, encourage students to conduct experi-

ments, and to get enlightenment in problem solving. The result of the investigation 

phase is presented in Figure 4. 

Develop and present the work. The teacher helps the students in planning and pre-

paring appropriate work for example reports, videos or models, and the teacher helps 

students to share assignments between members in the group. The result of present the 

work phase is presented in Figure 5. 

 

Fig. 5. The result of present the work phase 

Analyze and evaluate the problem-solving process. The teacher helps students re-

flect or evaluate their investigation in every process they use. The result of the evalua-

tion phase is presented in Figure 6. 

iJIM ‒ Vol. 14, No. 12, 2020 47



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

 

Fig. 6. The result of the evaluation phase 

3.1 Validity of edu-kit development 

Data obtained from the validator in the form of quantitative and qualitative, while 

from students in the form of quantitative data obtained from the readability test ques-

tionnaire.  

Validation by validator: Quantitative data were obtained by calculating the per-

centage score of each aspect assessed by the validator then described in accordance 

with the eligibility criteria of teaching materials. Aspects in the questionnaire evalua-

tion of teaching materials include the appropriateness of appearance and presentation 

and appropriateness of the contents in Edu-kit. Aspects of the learning plan assess-

ment questionnaire include aspects of identity and competence, development of learn-

ing materials and resources, scenarios of learning activities, and assessment. 

Assessment of the appropriateness of appearance and presentation is related to the 

format and layout of teaching materials. An interesting display of teaching materials 

can affect students' learning motivation to learn material on teaching materials. There 

are 9-10 aspects of evaluating the appropriateness of the appearance and presentation 

of each learning activity. Quantitative data analysis of the feasibility aspects of the 

appearance and presentation of the Edu-kit is presented in Table 3. 

Table 3.  Display and Presentation Eligibility Data on Edu-Kit 

No Appearance and Presentation Validator 1 (%) Validator 2 (%) 

1 Early part of the Edu-kit 87,5 85 

2 Learning activities 1 91,67 100 

3 Learning activities 2 91,67 100 

4 Learning activities 3 97,22 100 

5 Learning activities 4 94,44 100 

Average percentage 94,75 Very good 

 

48 http://www.i-jim.org



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

The validator's evaluation of the appearance and presentation aspects of the Edu-kit 

obtained an average percentage of 94.75%. Therefore, in terms of appearance and 

presentation the Edu-kit that was developed was very well used in learning. 

The assessment of the appropriateness of content in the Edu-kit relates to the accu-

racy of the delivery of material at each stage of problem-based learning. There are 8-

19 aspects of the assessment of the appropriateness of contents in each learning activi-

ty. Quantitative data analysis of the content feasibility aspects of the Edu-kit is pre-

sented in Table 4. 

Table 4.  Data on the Content Eligibility Aspect in the Edu-Kit 

No Content Feasibility Validator 1 (%) Validator 2 (%) 

1 Early part of the Edu-kit 93,75 100 

2 Learning activities 1 97,86 100 

3 Learning activities 2 85,53 100 

4 Learning activities 3 93,42 100 

5 Learning activities 4 93,42 97,36 

Average percentage 96,13 Very good 

 

The validator's evaluation of the Edu-kit content assessment aspect obtained an av-

erage percentage of 96.13%. Therefore, in terms of the assessment of the contents of 

the Edu-kit that is developed is very feasible to use in learning. 

The assessment of learning plans contained in the Edu-kit developed with the prob-

lem based learning model, has 4 aspects of assessment. Aspects of identity and com-

petence have 4 assessment criteria. The aspect of developing material and learning 

resources has 7 assessment criteria. Scenarios aspects of learning activities have 11 

assessment criteria. The evaluation aspect has 3 evaluation criteria. Quantitative data 

analysis on the learning plan is presented in Table 5. 

Table 5.  Quantitative Data Learning Plans on the Edu-Kit 

No Aspect Validator 1 (%) Validator 2 (%) 

1 Identity and competence 93,75 93,75 

2 Development of learning materials and resources 89,28 89,28 

3 Learning activity scenario 81,81 84,09 

4 Assessment 83,33 91,66 

Average percentage 88,37 Very good 

 

The validator's evaluation of the learning plan's assessment obtained an average 

percentage of 88.37%. Therefore, the learning plan developed from the Edu-kit is 

very feasible to use in learning. 

3.2 Effectiveness of edu-kit development 

Edu-kit effectiveness test results are done by calculating the average value obtained 

and calculating the percentage of the number of students who meet the minimum 

iJIM ‒ Vol. 14, No. 12, 2020 49



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

completeness criteria values in the two classes tested and also the assessment sheet on 

aspects of attitude, cognitive and psychomotor during the learning process.  

The test results of the students' pretest value analysis. The experimental class and 

the control class must have the same ability when used as an Edu-kit effectiveness test 

class. Data from the analysis of the pretest scores of the two classes are presented in 

Table 6. 

Table 6.  Data Analysis of Student Pretest Value 

No. Class Average Normality Homogeneity 
The similarity of two 

averages 

1 Experiment 60,81 0,114 
0,251 0,951 

2 Control 60,97 0,200 

Conclusion Normal Homogeneous No difference 

 

Based on Table 6, obtained a significance value of normality of 0.114 and 0.200 

which is greater than 0.05, it can be concluded that the pretest value is normal. For the 

homogeneity significance value of 0.251 > 0.05, it can be concluded that the pretest 

value is homogeneous. For the significance value of the two similarity tests of an 

average of 0.951 > 0.05, it can be concluded that there is no difference in initial abil-

ity between the two classes. 

Test results of students' posttest value analysis. Posttest mixture separation material 

was held at the end of the learning process at the fifth meeting. Posttest is a written 

test with 20 multiple choice questions. Posttest scores indicate the learning outcomes 

of students in the experimental class and the control class. Data on students' pretest 

results from both classes are presented in Table 7. 

Table 7.  Data Analysis of Student Pretest Value 

No. Class Average Normality Homogeneity Hypothesis testing 

1 Experiment 78,22 0,000 
0,958 0,048 

2 Control 74,19 0,002 

Conclusion Not normal Homogeneous 
There is a  

difference 

 

Based on Table 7, the significance value of normality is 0,000 and 0.002 which is 

less than 0.05 so it can be concluded that the posttest value is not normal. For the 

significance value of homogeneity is 0.958 > 0.05, it can be concluded that the post-

test value is homogeneous. For the results of hypothesis testing used non-parametric 

Mann Whitney U Test, the significance value is 0.048 < 0.05, it can be concluded that 

there are differences in learning outcomes between the two classes. The experimental 

class has a higher average pretest value than the control class, so the Edu-kit devel-

opment results can be categorized effectively for use in learning activities. 

The implementation of the learning process in the experimental class and the con-

trol class were observed during the learning process. The implementation of the learn-

ing process in both classes was observed using an observation sheet from the assess-

ment of attitude, knowledge and skills. This assessment is carried out by the research-

50 http://www.i-jim.org



Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

er by giving a grade according to the assessment rubric that has been made. Data on 

the average value of the feasibility of the learning process in the experimental class 

and the control class are presented in Table 8. 

Table 8.  Data Average Learning Outcomes Value 

No. Aspect Experiment Class Control Class 

1 Attitude 83,05 79,99 

2 Knowledge 85,12 84,89 

3 Skills 78,11 74,87 

Average 82,09 79,92 

 

Observation results from the assessment of attitudes, knowledge and skills show 

that the experimental class has a higher value than the control class. This is due to the 

teaching material used in the experimental class related to productive material that is 

arranged systematically following the stages of problem-based learning that makes it 

easy for students to understand the learning material. 

4 Conclusion 

Based on the description above, it is concluded: 

• The development of a mixed separation Edu kit with a problem-based learning 

model for Vocational High Schools is appropriate for use in learning. 

• The development of a mixed separation Edu kit with a problem-based learning 

model for Vocational High Schools is effectively used in learning. 

• The development of Edu-kits integrated with productive subjects in Vocational 

High Schools can lead to more meaningful learning and improve learning out-

comes in aspects of attitudes, knowledge and skills. 

5 References 

[1] Peraturan Menteri Pendidikan dan Kebudayaan Republik Indonesia Nomor 70 Tahun 2013 

tentang Kerangka Dasar dan Struktur Kurikulum Sekolah Menengah Kejuruan/Madrasah 

Aliyah Kejuruan. (Online), diakses 22 Mei 2019. https://doi.org/10.24832/jpnk.v17i2.22 

[2] Lestari, Milda Dwi Dwi., Kuswanti, Nur. & Maulida, An Nuril. 2017. Keefektifan Lembar 

Kegiatan Siswa Materi Pemisahan Campuran untuk Melatihkan Keterampilan Proses Sains 

Siswa pada Kelas VII SMP. E-Jurnal Pensa, 5 (1): 1-7. https://doi.org/10.26740/jpps.v6n1. 

p1196-1203 

[3] Fatimah, S. 2010. Pembelajaran Guide Discovery melalui Media LKS Konstruktif untuk 

Meningkatkan Penguasaan Konsep dan Keterampilan Proses Sains pada Materi Pokok La-

ju Reaksi. Universitas Lampung: Bandar Lampung. https://doi.org/10.33578/jpk-unri.v3 

i2.7782 

[4] Nurulita, A.S.2012. Efektivitas Model Pembelajaran Problem Solving dalam Meningkat-

kan Keterampilan Merumuskan Hipotesis dan Menarik Kesimpulan pada Materi Koloid. 

FKIP Unila: Bandar Lampung. https://doi.org/10.23960/jppk.v8.i2.201904 

iJIM ‒ Vol. 14, No. 12, 2020 51

https://doi.org/10.24832/jpnk.v17i2.22
https://doi.org/10.26740/jpps.v6n1.p1196-1203
https://doi.org/10.26740/jpps.v6n1.p1196-1203
https://doi.org/10.33578/jpk-unri.v3i2.7782
https://doi.org/10.33578/jpk-unri.v3i2.7782
https://doi.org/10.23960/jppk.v8.i2.201904


Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

[5] Clarke, R. J. and Macrae, R. 1987. Coffee Technology (Volume 2). Elsevier Applied Sci-

ence, London and New York. 

[6] Clarke, R. J. and Macrae, R. 1987. Coffee Chemistry (Volume 1). Elsevier Applied Sci-

ence, London and New York. 

[7] Farah, A., Monteiro., Calado, V., Franca. & Trugo. 2006. Analytical, Nutritional and Clin-

ical Method Correlation Between Cup Quality and Chemical Attributes of Brazilian 

Coffee. Food Chemistry (Science Direct) 98: 373–380. https://doi.org/10.1016/j.foodchem. 
2005.07.032 

[8] Retnoningrum, Ambar. 2016. Penggunaan Pendekatan Saintifik dalam Bahan Ajar berban-

tuan MultimediaMateri Konsep Larutan untuk SMK Agribisnis Produksi Pertanian. Prosid-

ing Seminar Nasional Pendidikan IPA Pascasarjana UM, vol 1: 542-548.  

[9] Ghavifekr, S. & Rosdy, W.A.W. 2015. Teaching and Learning with Technology: Effec-

tiveness of ICT Integration in Schools. International Journal of Research in Education and 

Science (IJRES), 1(2): 175-191. https://doi.org/10.21890/ijres.23596 

[10] Guruddin, Fatmawati. 2018. Manajemen Kurikulum untuk Meningkatkan Mutu Pendidi-

kan Islam. Tesis (Online). Malang: Universitas Islam Negeri Maulana Malik. 

[11] Shahroom, A. A., & Hussin, N. 2018. Industrial Revolution 4.0 and Education. Interna-

tional Journal of Academic Research in Business and Social Sciences, 8(9): 314–319. 

[12] Embong, Abd Mutalib, & Noor, Azelin M. 2012. E-Books as Textbooks in the Classroom. 

Procedia - Social and Behavioral Sciences, 47: 1802 – 1809. https://doi.org/10.1016/j.sbs 

pro.2012.06.903 

[13] Nurzaman. 2017. The Use of Problem-Based Learning Model to Improve Quality Learning 

Students Morals. Journal of Education and Practice, 8 (9): 2017. 

[14] Suyanto. & Jihad, A. (2016). Menjadi Guru Profesional: Strategi Meningkatkan Kualifi-

kasi dan Kualitas Guru di era Global. Jakarta: Esensi Divisi Erlangga.  

[15] Windiyati, Hestina. 2017. Praksis Strategi Pembelajaran Kejuruan Bidang Agribisnis Abad 

21. Jurnal Taman Vokasi, 5 (2): 160-168. https://doi.org/10.30738/jtvok.v5i2.2474 

[16] Chandrasena. Premawardhena, N., ICT in the foreign language classroom in Sri Lanka: A 

journey through a decade. 10th World Conference on Computers in Education (WCCE 

2013), Nicolaus Copernicus University, July 2-5 2013, Torun, Poland,pp 223-224. 

[17] Chandrasena. Premawardhena, N. 2012. Introducing Computer Aided Language Learning 

to Sri Lankan Schools: Challenges and Perspectives. 15th International Conference on In-

teractive Collaborative Learning and 41st International Conference on Engineering Peda-

gogy (ICL & IGIP), Villach, Austria. https://doi.org/10.1109/icl.2012.6402118 

[18] Alaimo, Angela & Bruscarosco, Anna., dkk. 2017. Same World Edu-Kit. Roma: CIES 

Onlus. 

[19] Dirjen Pendidikan Dasar dan Menengah. 2008. Panduan Pengembangan Bahan Ajar. Ja-

karta: Depdiknas. 

[20] Nur, Mohammad. 2006. Model Pembelajaran berdasarkan Masalah. Surabaya: LPMP 

Ditjen PMTK Depdiknas. 

[21] Peodaril, Martin & Hrmo, Roman. 2013. Introduction of a Quality Management System 

for Vocational Education and Training in Slovakia. International Journal of Engineering 

Pedagogy, 3 (3): 2013. 

[22] Astrian, Diah., Susilo, Herawati., & Purnomo, Aris Rudi. 2020. Mind Mapping in Learn-

ing Models: A Tool to Improve Student Metacognitive Skills. International Journal of 

Emerging Technologies in Learning, 15 (6): 2020. https://doi.org/10.3991/ijet.v15i06.12 

657 

[23] Karagiannidis, C., Kouroupetroglou, C., & Koumpis, A. 2012. Special Needs at Different 

Educational Levels: A Forecast of 2020.ind Mapping in Learning Models: A Tool to Im-

52 http://www.i-jim.org

https://doi.org/10.1016/j.foodchem.2005.07.032
https://doi.org/10.1016/j.foodchem.2005.07.032
https://doi.org/10.21890/ijres.23596
https://doi.org/10.1016/j.sbspro.2012.06.903
https://doi.org/10.1016/j.sbspro.2012.06.903
https://doi.org/10.30738/jtvok.v5i2.2474
https://doi.org/10.1109/icl.2012.6402118
https://doi.org/10.3991/ijet.v15i06.12657
https://doi.org/10.3991/ijet.v15i06.12657


Paper—Edu-Kit “Our Coffee” Development on Problem Based Learning Model for Vocational ...  

prove Student Metacognitive Skills. International Journal of Emerging Technologies in 

Learning, 7 (4): 2012. https://doi.org/10.3991/ijet.v7i4.2168 

[24] Darmaji., Kurniawan, Dwi Agus., & Astalini. 2012. Mobile Learning in Higher Education 

for The Industrial Revolution 4.0: Perception and Response of Physics Practicum. Interna-

tional Journal of Interactive Mobile Technologies, 13 (9): 2019. https://doi.org/10. 

3991/ijim.v13i09.10948 

[25] Maulana, Ilham Tri., hary, Restyaliza Dhini., & Purwasih, Ratih. 2019. Project-Based 

Learing Model Practicality on Local Network Devices Installation Subject. International 

Journal of Emerging Technologies in Learning, 14 (15): 2019. https://doi.org/10.3991/ijet. 

v14i15.10305 

6 Authors 

Sofiana Nur Fadilah is a Chemistry Education Graduate student, Faculty of 

Mathematics and Science. State University of Malang. Jl. Semarang 5, Malang, Indo-

nesia. (email: sofiana.nurfadilah@gmail.com). 

Siti Marfu’ah is a Lecturer in the Chemistry Department of Mathematics and Sci-

ence Faculty of Malang State University, Jl. Semarang 5, Malang, Indonesia.  

(email: siti.marfuah.fmipa@um.ac.id) 

Surjani Wonorahardjo is a Lecturer in the Chemistry Department of Mathemat-

ics and Science Faculty of Malang State University. PUI-PT Disruptive Learning 

Innovation, State University of Malang, Jl. Semarang 5 Malang, Indonesia.  

(email: surjani.wonorahardjo@um.ac.id) 

Article submitted 2020-03-23. Resubmitted 2020-05-18. Final acceptance 2020-05-25. Final version 

published as submitted by the authors. 

iJIM ‒ Vol. 14, No. 12, 2020 53

https://doi.org/10.3991/ijet.v7i4.2168
https://doi.org/10.3991/ijim.v13i09.10948
https://doi.org/10.3991/ijim.v13i09.10948
https://doi.org/10.3991/ijet.v14i15.10305
https://doi.org/10.3991/ijet.v14i15.10305
mailto:sofiana.nurfadilah@gmail.com
mailto:siti.marfuah.fmipa@um.ac.id
file:///E:/IAOE%202020/iJIM/iJIM%2014%2012%202020/surjani.wonorahardjo@um.ac.id