International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 15, No. 07, 2021 Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox Reaction Materials https://doi.org/10.3991/ijim.v15i07.21559 Dewi Handayani(*), Elvinawati, Isnaeni University of Bengkulu, Bengkulu, Indonesia d.handayani@unib.ac.id Muzanip Alperi Institution of Education Quality Assurance, Bengkulu, Indonesia Abstract—This research is the development of guided disvovery based elec- tronic module that aims to knowing the eligibility level of e-modules and stu- dent responses to guided discovery based electronic modules in redox reaction material. This electronic module uses the ADDIE development model. Research was conducted at one of the high schools in Bengkulu with the subject 9 stu- dents of X MIPA A Students for small scale trials and 30 students of X MIPA D Students for large scale trials. From the results of the research obtained (1) the percentage of feasibility of e-modules on the material aspect is 86,315% while from the media aspect is 91.425% so that based on the results of validation by the E-module validator is declared very valid, (2) based on the test results of the small-scale student response percentage of 75.97 % with interesting category, while for large-scale trials of 84.48% with a very interesting category. From the results percentage, it can be concluded that e-module is suitable for use in learn- ing. Electronic modul based on guided discovery is an effective tool to help students in learning redox reaction subject. E-modul can be accessed by smartphone or laptop. With this e-modul, students can access the study material from everywhere without any time limitation. Keywords—Electronic Modules, Guided Discovery, Redox Reaction Materi- als. 1 Introduction Books are a learning support tool for students to dig up informations, concepts, and gain knowledge as well as chemistry textbooks. In learning activities, chemistry text- books are one of the learning resources that are often used by teachers and high school students to support the learning process. Chemistry textbooks contain infor- mation about subject matters, examples and practice questions, as well as supporting pictures that are useful for students in understanding learning concepts. 94 http://www.i-jim.org https://doi.org/10.3991/ijim.v15i07.21559 mailto:d.handayani@unib.ac.id Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… Chemistry textbooks should be an effective learning tool to help students achieve learning competencies and understand subject matter however from the results of observations made on class X one of the high schools in Bengkulu, it was found that students had difficulty understanding the explanation of the material in the chemistry textbooks that used. The lack of variations in sample questions also makes students difficult to understand the subject matter in chemistry textbooks, so that students find it difficult to understand the concepts and theories being studied. The results of the observations were supported by data obtained through questionnaires that were dis- tributed to Bengukulu high schools. It is known that only about 44% of students are interested in reading chemistry textbooks and as many as 52% of students have diffi- culty understanding the explanations in chemistry textbooks. The redox reaction is one of the materials that students learn in class X in the even semester, from the observation that data is obtained that only about 49% of students from class X MIPA in the 2018/2019 academic year at one of the high schools in Bengkulu passed the KKM on daily test and as many as 63 % of students have diffi- culty studying redox reaction material. Research by Sulalaha, et al [1] also states that the results of the percentage of difficulties experienced by students in understanding redox material are quite large, namely the redox concept in terms of changes in oxida- tion number (56%), oxidizing and reducing agents (48%), releasing and receiving electrons (45%), and binding and releasing oxygen (39%). In order to support student learning needs, various types of teaching materials have been developed, one of which is by utilizing technology. One form of technology use in education is the development of electronic modules. An electronic module is a form of presenting independent learning materials that are arranged systematically into the smallest learning unit to achieve certain learning objectives which are presented in an electronic format in which there are animation, audio, navigation that make users more interactive with the program [2]. As for electronic devices that can be used to access electronic modules, namely smartphone or laptop which have a number of supporting devices, making them more interactive and interesting. This is in line with previous research, namely Android-Based Interactive Mobile Learning has succeeded in creating new effective ways for students to learn [3]. Learning science by using an Android can improve the critical thinking skills of junior high school students [4]. In electronic module development, there is a number of applications that can be used, including 3D PageFlip Professional. The 3D PageFlip Professional software can add animation, images, audio, video, and audio-visual to support the media compo- nents of the e-module. The resulting electronic module can be saved in EXE, Zip, HTML, 3DP, or screen saver formats, so that it can be accessed using such as a PC / laptop and smartphone. Application 3D PageFlip Professional chosen for electronic module development because of its easy operation (user friendly), giving effect three dimensions, and has a more attractive appearance. In order to develop an electronic module that can improve the quality of student learning, the guided discovery approach is adapted. The guide discovery approach will train students to find a concept actively, independently and with direction in order to strengthen students' understanding based on the results of the analysis they have done themselves. Guided discovery learning can be an efficient approach to teaching iJIM ‒ Vol. 15, No. 07, 2021 95 Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… procedural skills, effectively to improve students' reflective thinking ability and stu- dent's self-learning both in high-rank school and middle-rank school [5, 6]. Based on the background of the problems that have been described, the researchers conducted research with the title “Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox Reaction Materials ". 2 Literature Review 2.1 Electronic module E-module is the latest innovation from the print module, where this electronic module can be accessed with the help of a computer that is integrated with software that supports e-module access. Electronic media that can be accessed by students have different benefits and characteristics. If viewed from the benefits of electronic media itself, it can make the learning process more interesting, interactive, can be done any- time and anywhere and can improve the quality of learning. E-module development can be developed with various learning methods and the help of other supporting media. E-modules are a set of digital and non-printed teaching media that are system- atically arranged and used for independent learning purposes, so that they can require students to learn to solve problems in their own way. E-modules are learning materi- als that are systematically designed based on a specific curriculum and are packaged in a specific time unit displayed using an electronic device such as a computer or android. The electronic module is a form of presenting independent learning materials that are systematically arranged in the smallest learning unit to achieve a specific learning goal, which is presented in an electronic format [7]. The electronic module is a form of presenting independent learning materials that are arranged systematically into the smallest learning unit to achieve certain learning objectives which are presented in an electronic format in which there are animation, audio, navigation which makes users more interactive with the program. 2.2 3D Pageflip professional 3D PageFlip Professional is a software that can be used to create teaching materi- als with 3D effects. This application is able to make the display of the electronic module more attractive with the addition of animation, images, video, audio-visual, various formats such as EXE, Zip, HTML, 3DP, Screen Saver and others. This 3D PageFlip Professional application also provides settings such as magazines, docu- ments and so on [8]. 3D Pageflip software is a type of software used to convert teach- ing materials in PDF form to flipbook pages (back and forth), each resulting PDF page can be flipped like a real book and can also insert video in its production. flash, images and sound into the teaching materials that will be made so that the resulting 96 http://www.i-jim.org Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… teaching materials will be more interesting and can help students learn both inde- pendently and with teacher guidance. To display electronic modules on an android system, it is necessary to first install the 3D Pageflip Reader application on the playstore or on the web www.3dpageflip.com. After installing 3D Pageflip Reader on the android system, the electronic module can be opened, which data has been entered into the smartphone first. Advantages in the 3D Pageflip Professional application, namely: 1. Flipbook media can be folded (back and forth) like a real book. When turning the page, it looks like it moves like flipping a book, causing a different and more inter- esting sensation. 2. In each page of the flipbook, an animation is inserted which supports the learning material in the form of a video or flash animation. 3. The e-book from the 3D Pageflip Professional application is an interactive learning medium in delivering material because it can display multimedia illustrations. 2.3 Guided discovery Guided discovery is an approach which in its implementation is carried out by stu- dents based on teacher instructions. Instructions are given generally in the form of guiding statements, here the teacher as a facilitator, the teacher guides students where the teacher is needed. In this method, students are encouraged to think for themselves so that they can find general principles based on the material or data provided by the teacher. To what extent students are guided in learning depends on their abilities and what material is being studied [9]. Knowledge gained by discovery shows some goodness. First, it is long-lasting or long-remembered or easier to remember when compared to knowledge learned in other ways. Second, discovery learning outcomes have a better transfer effect than other learning outcomes. In other words, the con- cepts and principles that belong to one's cognitive are easier to apply to new situa- tions. Third, thorough learning discovery improves learners' reasoning and ability to think freely [10]. There are guide discovery steps, namely student orientation to problems, organiz- ing students in learning, conducting investigations, presenting the results of activities, and evaluating learning. This step makes students learn independently, actively, and creatively in obtaining their respective concepts and understanding [11]. The guided discovery approach guides students to be able to actively participate in the learning presented, students' problem-solving abilities will be honed, and the ma- terial studied will last longer because students are involved in the process of finding it [12].Guided discovery can train and improve some of the abilities of students. At the high school level, abilities that can be improved include problem solving skills and critical thinking skills. This indicates that guided discovery affects the thinking ability and activeness of students [13]. iJIM ‒ Vol. 15, No. 07, 2021 97 Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… 3 Method 3.1 Research setting This research was conducted in the period of January-March 2020 at one of the high schools in Bengkulu City, Indonesia Class X MIPA for the 2019/2020 school year. The subjects of the small group trial were 9 students of class X MIPA A, while the subjects of the large group trial were students of class X MIPA. D totaled 36 stu- dents. 3.2 Research design The research is development research or research & development with the ADDIE model. This research consists of five stages of development including analysis, name- ly preliminary and final analysis, student’s material analysis, task analysis, objectives of learning analysis. Furthermore, planning includes preparing references in the form of books and journals, compiling a conceptual framework, and compiling a module draft design. At the development stage, the e-module was made, expert validation, and revision then for implementation small group trials, stage II revisions, and large group trials were carried out. 3.3 Data analysis technique Normality test: In the normality test using the Kolmogrov-Smirnov test through the IBM SPSS statistic 23 application program. The calculation results are stated to be normally distributed if the significance is > 0.05 [14]. Validity e-modul analysis: Table 1. Score of answers [15] Category Score Very good 5 Well 4 Pretty good 3 Not good 2 Not very good 1 The score obtained from the validity assessment is then calculated the average score using the following formula: 𝑋" = ∑" # Information : 𝑋" = Average score ∑𝑥 = Total score of each statement 𝑛 = Number of evaluators 98 http://www.i-jim.org Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… The calculation of the percentage of validity of each statement item of the e-modul uses the following formula: 𝑉 = $%&'( *+%,- .'"/.0. 1+%,- x 100% Information : V = Percentage of validity Table 2. The percentage scale of the validity assessment [16] Category Score6666666666666666666666666 V> 80% Very valid 41% 80% Very interesting 61% 0.05 which means normally distributed while X MIPA B and X MIPA C <0.05, that is, not normally distributed. Thus, class X MIPA A is for small scale trials and X MIPA D is for large scale trials. E-module has passed the validity test by the validator by assessing the material and media aspects. In material aspects, there are various aspects in the e-module that must be revised in order to fix the parts in the e-module that are not yet suitable. Explains that revisions were made to improve the e-module part which was considered inaccu- rate by the validator before it was tested. After the revision was complete, the valida- tor assessed that the media and material aspects of the guided discovery-based e- module were very valid with a percentage of 91,425% and 86,315%. The validation results state that the e-module can be tested on students. E-module said to be feasible to be tested if it meets the level of validity [20]. Table 7. Feasibility Assessment of Guided Discovery-Based Chemical E-Module No. Validation Aspects Score Average Percentage of Validity (%) Criteria 1 Media 96 91,425 Very Valid 2 Material 82 86,315 Very Valid From table 7, it is known that the results of the e-module validation based on guid- ed discovery by two validators on the media aspect obtained an average score of 96 if the percentage of validity was calculated, namely 91,425% with very valid criteria. In the validation of the material obtained a score of 82 with a validity percentage of 86,315% on very valid criteria. The data validation carried out by experts is explained as follows. Media validation results Table 8. Tabulation of Media Expert Exfert Lecturer I Exfert Lecturer II Assessment Aspects Total score Percentage of Validity (%) Criteria Total score Percentage of Validity (%) Criteria E-module layout 30 100 Very Valid 25 83,3 Very Valid E-module graphics 52 94,54 Very Valid 45 81,82 Very Valid E-module lan- guage 20 100 Very Valid 20 100 Very Valid Total score 102 90 Average (𝑿") 34 97,14% Very Valid 30 85,71% Very Valid In table 8, the total score exfert lecturer I and exfert lecturer II are 102 and 90 with a percentage of validity of 97,14 and 85,71 % with very valid criteria, indicating that the e-module is very suitable for use by students. Results of material validation: Based on research results, material validation was car- ried out by experts including lecturers in the chemistry education study program and chemis- iJIM ‒ Vol. 15, No. 07, 2021 101 Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… try teacher at one of the high schools in Bengkulu City, Indonesia. The e-module assessment by material experts is presented in table 9: Table 9. Tabulation of Material Expert Expert Lecturer I Expert Lecturer II Assessment Aspects Total score Percentage Validity (%) Criteria Total score Percentage Validity (%) Criteria Preliminary 13 86,67 Very Valid 12 80 Very Valid Completeness of contents 28 93,33 Very Valid 23 76,67 Very Valid Learning 28 93,33 Very Valid 26 86,67 Very Valid Guided Discovery 18 90 Very Valid 16 80 Very Valid Total score 87 77 Average score (𝑿") 21,75 91,58% Very Valid 19,25 81,05% Very Valid In table 9, the total score exfert lecturer I is 87 with a validity percentage of 91,58%, and total score expert lecturer II is 77 with a validity percentage of 81,05%. The results of the assessment by two experts stated that the e-module was very valid. In preparing the material into guided discovery-based e-modules, it is adjusted to the core competencies and indicators in the 2013 curriculum. The sub-material con- sists of: 1. Development of the Concept of Redox Reactions 2. Rules for Determination of Biloks 3. Reduction and Oxidation 4. Oxidizing and reducing agents 5. Disproportionation and Consproporsionation The components included in the e-module are the preparation of contents that are adjusted to core competencies, basic competencies, and indicators, presentation for- mat, and material systematics in the developed e-module. The content of the e-module consists of a discussion rubric, a description of the material, exercise I, exercise II, summary, evaluation, answer keys, glossary, and bibliography, as well as a video tutorial designed to help students understand how to solve problems independently. Fig. 1. The initial view of the e book 102 http://www.i-jim.org Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… The electronic module guided discovery-based was developed as a learning re- source for students to help understanding material through analysis and discovery activities. The e-module is presented based on the component of the guided discovery approach which consists of let's formulate, let's hypothesize, let's analyze, let's collect data, and let's conclude. The guided discovery approach is used because it can train scientific thinking skills and guide students in finding concepts independently. Ac- cording to Shinta [19], guided discovery emphasizes the discovery of concepts or learning material by students themselves. In the guided discovery-based chemistry e-module trial phase, it is first disseminat- ed, this is done so that students can read the e-module before learning activities in class are carried out and it is hoped that students will gain initial knowledge about the material. Then students are formed into groups and then given directions to read the rubric containing the material on the activity sheet. Students are given the opportunity to read and study various information contained in the rubric. When learning process used e-module students are able to receive directions well, students read the material in the rubric carefully with their group members. After students have finished reading the rubric, students are led to formulate problems based on the information students get. At first the students had experienced problems in writing the problem formula- tion, but students actively asked questions to overcome these obstacles. After being guided and given instructions, students can begin to formulate their own problems well. In the let's hypothesize stage, students write down their answers temporarily to prove their truth through the analysis process. Some students were confused about writing hypotheses because this activity was very new to students. Students need to be taught in advance how to make hypotheses. In the activity let's analyze students ob- serve the video displayed on e-module and try to find answers to prove the truth of hypotheses that students have conveyed. Students analyze the contents of the video to collect data and write down their observations on the worksheets provided. After going through all the stages of the activity, at the end of the discussion the students were guided to write conclusions based on the results of the analysis that had been done. Guided discovery-based e-module implementation on research subjects: From the small-scale trial, the average score of the student response questionnaire was 60,78, where the calculation of the percentage of student responses was obtained 75,97% with very interesting category. From a large-scale trial of the guided discov- ery-based chemical e-module, the percentage of the response was 84.48%, with very interesting category. In small-scale trials carried out on 9 students. When the small-scale trial was car- ried out, the e-module was provided offline in 3DP format and online using a link. Students can access the e-module using their mobile phone or laptop. From the trials conducted by students assessing the e-module is interesting because it can help in understanding the material, besides that the appearance and content of the e-module makes students motivated to study the material contained in the e-module, that learn- ing resources interesting things will generate knowledge and motivate students in learning [19]. iJIM ‒ Vol. 15, No. 07, 2021 103 Paper—Development Of Guided Discovery Based Electronic Module For Chemical Lessons In Redox… In a large-scale trial, guided discovery-based e-modules get a positive response from students assessing that e-modules help to study the material optimally. The ar- rangement of material and structured learning activities makes it easier for students to know the sequence of learning the material. Material arranged according to needs can lead students to construct their own knowledge [21]. In addition, multimedia (text, video and images) displayed on the e-module helps students to understand how to solve problems so that it fosters students' interest in studying redox reaction material. The use of digital books makes learning interesting, practical and can be carried any- where because they can be read through smartphone [22]. From the research that has been done, it is known that the guided discovery based chemical electronic module is quite effective in helping students study redox reaction material. The results obtained are in accordance with Khasanah's research [23] that guided discovery-based modules are effective in helping students understand the ma- terial. The development of guided discovery-based e-module teaching materials is also able to stimulate students critical thinking skills, enhancing process skills and attitudes developing guided inquiry-based science teaching and learning [24, 25]. Learning activities that provide the widest possible opportunity for students to gather information and analyze can provide new learning experiences for students. E- modul can be accessed by smartphone or laptop has become more flexible. With this e-modul, students can access the study material from everywhere without any time limitation and students who do not have chemistry textbooks can learn through e- modules. 5 Conclusion Based on the validity test, it shows that the guided discovery-based e-module is very feasible to be used as a learning resource by students with a percentage of validi- ty on the media aspect of 91.425% and the material aspect of 86,315% with a very valid category. From the trial stage students gave positive responses, that the e- module was very interesting and helped students understand the material with the percentage of the response, namely 84.48%. 6 References [1] Sulalaha, Wardha Anis, Ida Bagus Suryadharma and Dedek Sukarianingsih.( 2017). 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Unnes Science Education Journal, 3(1), 1496–1502. Retrieved from http://journal.unnes.ac.id/index.php/jpii. https://doi.org/10.24127/jpf.v3i1.21 7 Authors Dewi Handayani is a lecturer in the Education Chemistry Study Program at the Department of Science Mayor Education at Universitas Bengkulu, Indonesia and now, she is postgraduate student, at the Department of Education, Faculty of Teacher Train- ing and Education Universitas Bengkulu. (email: d.handayani@unib.ac.id). Elvinawati is a lecturer in the Education Chemistry Study Program at the Depart- ment of Science Mayor Education at Universitas Bengkulu, Indonesia. Isnaeni is an undergraduate student in the Education Chemistry Study Program at the Department of Science Mayor Education at Universitas Bengkulu, Indonesia. Muzanip Alperi is an educational technology developer at Institution of Education Quality Assurance, Bengkulu, Indonesia. and now, he is postgraduate student, at the Department of Education, Faculty of Teacher Training and Education Universitas Bengkulu. Article submitted 2021-01-25. Resubmitted 2021-02-28. Final acceptance 2021-02-28. Final version published as submitted by the authors. 106 http://www.i-jim.org https://doi.org/10.33369/pendipa.4.2.58-65 http://journal.unnes.ac.id/index.php/jpii https://doi.org/10.24127/jpf.v3i1.21 d.handayani@unib.ac.id