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All Journal Jurnal Pendidikan Sains Journal of Education and Learning (EduLearn) Jurnal Pendidikan Fisika Indonesia Jurnal Pendidikan IPA Indonesia Jurnal Pendidikan: Teori, Penelitian, dan Pengembangan Jurnal Inovasi dan Pembelajaran Fisika Jurnal Pendidikan Fisika Momentum: Physics Education Journal Prosiding SNPF (Seminar Nasional Pendidikan Fisika) Indonesian Journal of Electrical Engineering and Computer Science Jurnal Riset Pendidikan Fisika PROSIDING SEMINAR NASIONAL FISIKA (E-JOURNAL)
Wartono Wartono
Universitas Negeri Malang
Humanities Education Electrical & Electronics Engineering Energy Library & Information Science Physics Social Sciences Other

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PENGARUH BLENDED LEARNING TERHADAP PENGUASAAN KONSEP DAN PENALARAN FISIKA PESERTA DIDIK KELAS X -, Hermawanto; Kusairi, S.; -, Wartono
Jurnal Pendidikan Fisika Indonesia Vol 9, No 1 (2013)
Publisher : Jurusan Fisika, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Penelitian ini bertujuan 1) Mengetahui pengaruh blended learning terhadap penguasaan konsep fisika 2) Mengetahui pengaruh blended learning terhadap penalaran fisika. Rancangan yang digunakan adalah Randomized Posttest only Control Group Design. Populasinya adalah peserta didik kelas X SMA Negeri 1 Batu. Sampelnya yaitu kelas X-6 dan X-10 sebagai kelas eksperimen, kelas X-11 dan X-12 sebagai kelas kontrol. Hasil uji t penguasan konsep didapat thitung = 6,64 > = ttabel =1,66, menunjukkan ada perbedaan, sedangkan untuk uji lanjut yaitu uji Tuckey menunjukkan Qhitung = 7,55 > Q tabel = 2,85, menunjukan bahwa penguasaan konsep peserta didik yang menggunakan blended learning lebih tinggi dari pada konvensional. Berkaitan dengan penalaran, hasil uji t menunjukkan thitung = 2,65 > ttabel = 1,66, menunjukkan ada perbedaan. Sedangkan untuk uji lanjut yaitu uji Tuckey menunjukkan Qhitung = 3,19 > Qtabel = 2,85, menunjukkan bahwa penalaran peserta didik yang menggunakan blended learning lebih tinggi dari pada konvensional. Simpulan penelitian ini adalah 1) Ada pengaruh blended learning terhadap penguasaan konsep fisika, 2) Ada pengaruh blended learning terhadap penalaran fisika. Pembelajaran blended learning dapat meningkatkan penguasaan konsep dan penalaran fisika serta melatih peserta didik untuk mandiri dan aktif. TThe aims of this research are 1) knowing the influence of blended learning study toward concept physics achievement and 2) knowing the influence of blended learning toward physics reasoning. This research used Randomized Posttest only Control Group Design and conducted in odd semester 2012-2013 academic year. The research population were students of grade X in senior high school 1 Batu. The research samples were four classes: X-6 and X-10 as the experiment classes and X-11 and X-12 as the control classes. The instrument is test of physics concept achievement and physics reasoning in multiple choice form. The results showed that there was no difference between the concept physics achievement who studied with and without blended learning, while further test the Tuckey test showed QResult= 7.55> Q Table = 2.85 indicating that the students’ mastery of concepts using blended learning was higher than the conventional one. In terms of physics reasoning, test results showed tResult t = 2.65> tTable = 1.66, showing that there was no difference in physics reasoning between students who learn with blended and without blended. Additionally, for the further Tuckey test showed QResult = 3.19> QTabel = 2.85, indicating that the reasoning of learners who used blended learning was higher than conventional. It was concluded that 1) there is the influence of Blended Learning study toward physics concept achievement and 2) there is influence of blended learning study toward physics reasoning.In addition, blended learning study can increase physics concept achievement and reasoning. Blended learning trains the students to be independent and active, and the procces of teaching and learning can be effective and efficient.
Pengaruh Pembelajaran Inkuiri Terbimbing Integrasi Peer Instruction Terhadap Penguasaan Konsep Dan Kemampuan Berpikir Kritis Siswa Kurniawati, I.D.; -, Wartono; Diantoro, M.
Jurnal Pendidikan Fisika Indonesia Vol 10, No 1 (2014): January 2014
Publisher : Physics Department, Faculty of Mathematics and Natural Sciences, Semarang State University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v10i1.3049

Abstract

Penelitian ini bertujuan untuk mengetahui perbedaan penguasaan konsep dan kemampuan berpikir kritis siswa yang menggunakan pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing, dan pembelajaran konvensional. Selain itu, juga untuk mengetahui pengaruh pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing dan pembelajaran konvensional berturut-turut terhadap penguasaan konsep dan kemampuan berpikir kritis fisika. Rancangan penelitian menggunakan kuasi eksperimen dengan posttest only design. Data dianalisis dengan analisis multivariat (manova) satu jalur dan uji lanjut LSD. Hasil penelitian menunjukkan bahwa terdapat perbedaan penguasaan konsep dan kemampuan berpikir kritis siswa yang menggunakan pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing dan pembelajaran konvensional, penguasaan konsep siswa yang belajar dengan pembelajaran inkuiri terbimbing integrasi peer instruction lebih tinggi daripada pembelajaran inkuiri terbimbing dan pembelajaran konvensional, dan kemampuan berpikir kritis siswa yang belajar dengan pembelajaran inkuiri terbimbing integrasi peer instruction lebih tinggi daripada pembelajaran inkuiri terbimbing dan pembelajaran konvensional. The research aimed to determine the differences of concepts acquisition and critical thinking skills among students having peer instruction integrated guided inquiry learning, guided inquiry and conventional learning. Beside that, the research also aimed to determine the influence of peer instruction integrated guided inquiry learning, guided inquiry and conventional learning respectively to the concepts acquisition and critical thinking skills. The research used a quasi-experimental with posttest only design. The data were analysed by using multivariate analysis (manova) which was followed by LSD test. The results showed that, there were differences of concepts acquisition and critical thinking skills among students who used peer instruction integrated guided inquiry learning, guided inquiry learning and conventional learning. The concepts acquisition of students having peer instruction integrated guided inquiry learning was higher than that of guided inquiry learning and conventional learning, while critical thinking skills of students with peer instruction integrated guided inquiry learning is higher than that with guided inquiry learning and conventional learning.
PENGARUH BALIKAN FORMATIF TERINTERGRASI STRATEGI PEMBELAJARAN DIAGRAM VEE DAN KEMAMPUAN AWAL TERHADAP PENGUASAAN KONSEP SISWA Sofianto, E. W. N.; Wartono, W.; Kusairi, S.
Jurnal Pendidikan Fisika Indonesia Vol 12, No 2 (2016): July 2016
Publisher : Physics Department, Faculty of Mathematics and Natural Sciences, Semarang State University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v12i2.4269

Abstract

Penelitian ini bertujuan untuk mengetahui interaksi antara penilaian formatif dengan kemampuan awal terhadap penguasaan konsep siswa materi fluida statis, suhu, dan kalor. Metode penelitian menggunakan kuasi eksperimen faktorial 2 x2. Populasi penelitian ini adalah seluruh siswa kelas X MIA SMA Negeri 1 Singosari tahun ajaran 2014/2015 yang terdiri dari 5 kelas dengan jumlah 170 siswa yang akan mendapatkan materi fluida statis, suhu dan kalor. Sampel yang digunakan adalah kelas X MIA 1 dengan pembelajaran Diagram Vee-balikan formatif, sedangkan X MIA 3 menggunakan Diagram Vee-penugasan. Penguasaan konsep siswa diukur dengan tes penguasaan konsep pada materi fluida statis, suhu dan kalor. Hasil dari tes penguasaan konsep dianalisis dengan uji prasyarat analisis. Pada uji normalitas, kemampuan awal siswa dan penguasaan konsep siswa terdistribusi normal dengan nilai p (sig) > 0,05. Pada uji homogenitas, kemampuan awal siswa dan penguasaan konsep siswa data homogen dengan p (sig) > 0,05. Hasil uji hipotesis penelitian menggunakan uji Anova Two Ways, menunjukkan tidak ada interaksi antara kemampuan awal dan penilaian formatif terhadap penguasaan konsep.This study aimed to determine interaction among formative assessment, prior knowledge and the student mastery of the concept of static fluid, heat and temperature. This research used quasi experimental method using 2x2 factorial. The population was all students of grade X, science program of Senior High School Singosari, school year 2014/2015 which consists of five class with 170 students who will get material of static fluid, heat and temperature. The samples were grade X science 1 with Diagram Vee formative assessment and grade X science 3 with Diagram Vee assignment. Mastery of concepts were measured by using sumative test of static fluid, heat and temperature. Result of mastery of concepts were tested by using analysis precondition test. The normality test showed that prior knowledge and mastery of concepts of student was normally distributed with p (sig) > 0,05. The homogeneity test showed that prior knowledge and mastery of concepts of student were homogenous with p (sig) > 0,05. Result of hypothesis testing with Anova Two Ways showed no interaction among prior knowledge, formative assessment and mastery of concepts .
ANALYSIS OF MENTAL MODEL OF STUDENTS USING ISOMORPHIC PROBLEMS IN DYNAMICS OF ROTATIONAL MOTION TOPIC Khasanah, N.; Wartono, W.; Yuliati, L.
Jurnal Pendidikan IPA Indonesia Vol 5, No 2 (2016): October 2016
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v5i2.5921

Abstract

The analysis of mental models is a part of the identification of students thoughts on the concept. Mental models analysis is conducted by conditioning the complex problems such as the isomorphic issues. The research objective is to analyze the development of students mental models on the topic rotational motion dynamics. The study was designed with the mixed method. The design phase of the research was conducted in both quantitative and qualitative approach. The quantitative phase was performed by providing pre-test, learning, and post-test containing isomorphic problems; while qualitative phase was implemented by interview and quiz. The data were analyzed quantitatively and qualitatively. The results of the study categorizes mental models into three types, i.e. Low Mental Model (LMM), Moderate Mental Model (MMM), and High Mental Model (HMM). Based on the pre-test results, it was proved that all students used Low mental model in resolving the isomorphic problems. Using the Low Mental Model, it was found that students have misconceptions on the moment of force and moment of inertia. Mental models developed gradually from Low mental model to Moderate Mental Model and then reached the High Mental Model Mental. It was observed from the results of pre-test, quizzes, and post-test. The quiz and post-test results showed the students who used Mental Model and High Mental Model.
KEMAMPUAN PEMECAHAN MASALAH FISIKA PADA MODELING INSTRUCTION PADA SISWA SMA KELAS XI Sujarwanto, E.; Hidayat, A.; -, Wartono
Jurnal Pendidikan IPA Indonesia Vol 3, No 1 (2014): April 2014
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v3i1.2903

Abstract

Tujuan dari penelitian ini adalah untuk mengetahui kemampuan pemecahan masalah fisika siswa dalam modeling instruction. Penelitian ini menggunakan mixed method desain embedded experimental model. Hasil penelitian menunjukkan modeling instruction meningkatkan kemampuan pemecahan masalah fisika dibandingkan pembelajaran konvensional. Hal ini karena modeling instruction menekankan pada pembangunan pemahaman konsep melalui pemodelan yang ditunjukkan dengan diagram, grafik, dan gambar sebelum siswa menyajikan dalam representasi matematis. Modeling instruction memfasilitasi siswa dalam mengkonstruksi pengetahuan dan pemecahan masalah melalui kegiatan yang ilmiah. Kemampuan pemecahan masalah fisika siswa lebih baik setelah belajar dengan modeling instruction. Perkembangan kemampuan pemecahan masalah fisika siswa setelah belajar dengan modeling instruction ditunjukkan dengan perkembangan yang lebih baik dalam mengenali masalah berdasarkan konsep, membuat representasi dari masalah, dan evaluasi terhadap solusi dan konsep yang digunakan. Kegiatan modeling instruction yaitu seperti meminta siswa memberikan penjelasan konseptual terhadap pendapat dan jawaban secara lisan atau tulis dan pemberian masalah untuk dikelompokkan berdasarkan konsep mampu memberikan alternatif lain dalam penilaian dari hanya sekedar paper and pencil test. The purpose of this study was to determine the students’ problem-solving ability in modeling the physics instruction. This study used a mixed method design of embedded experimental models. The results showed a modeling instruction improves problem-solving ability than conventional learning physics. This is because the modeling instruction emphasizes the development of conceptual understanding through modeling that indicated by diagrams, graphs, and images before the student presents the mathematical representation. Modeling instruction facilitates students in constructing knowledge and solving problems through scientific activities. Physics students’ problem solving skills through learning by modeling instruction. The development of problem-solving ability of students after studying physics at modeling the instruction indicated by the development of better identify problems based on the concept , making the representation of the problem , and the evaluation of the solutions and concepts used. Activity modeling instruction is like asking students to give a conceptual explanation of the opinions and answer orally or in writing and giving problems to be grouped based on the concept able to provide another alternative in the assessment of just a paper and pencil test.
INFLUENCE OF PROBLEM BASED LEARNING MODEL ON STUDENT CREATIVE THINKING ON ELASTICITY TOPICS A MATERIAL Wartono, W.; Diantoro, M.; Bartlolona, J. R.
Jurnal Pendidikan Fisika Indonesia Vol 14, No 1 (2018)
Publisher : Department of Physics, Faculty of Mathematics and Natural Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v14i1.10654

Abstract

The phenomenon in the classroom where teachers are still limited space to train and to improve students' creative thinking skills (CTS) on the topic of material elasticity is the main reason for this research. Information on improving students' creative thinking skills in material elasticity topics by implementing problem based learning model (PBL) in learning is also limited. Previous research has not revealed any effort related to improving students' creative thinking skills on material elasticity topics by comparing two different learning models. Therefore this study aims to reveal differences in student learning outcomes on material elasticity materials in PBL and conventional models. Based on the research results obtained information that students 'creative thinking skills scores using PBL model is higher compared with that of conventional learning. It also revealed at each meeting that the CTS indicator of students are always improve. It can be concluded that PBL is very effective in training and improving students' creative thinking skill in physics learning. Thus PBL can be recommended in improving students' creative thinking skills.
Pengaruh Pembelajaran Inkuiri Terbimbing Integrasi Peer Instruction Terhadap Penguasaan Konsep Dan Kemampuan Berpikir Kritis Siswa Kurniawati, I.D.; -, Wartono; Diantoro, M.
Jurnal Pendidikan Fisika Indonesia Vol 10, No 1 (2014)
Publisher : Department of Physics, Faculty of Mathematics and Natural Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v10i1.3049

Abstract

Penelitian ini bertujuan untuk mengetahui perbedaan penguasaan konsep dan kemampuan berpikir kritis siswa yang menggunakan pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing, dan pembelajaran konvensional. Selain itu, juga untuk mengetahui pengaruh pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing dan pembelajaran konvensional berturut-turut terhadap penguasaan konsep dan kemampuan berpikir kritis fisika. Rancangan penelitian menggunakan kuasi eksperimen dengan posttest only design. Data dianalisis dengan analisis multivariat (manova) satu jalur dan uji lanjut LSD. Hasil penelitian menunjukkan bahwa terdapat perbedaan penguasaan konsep dan kemampuan berpikir kritis siswa yang menggunakan pembelajaran inkuiri terbimbing integrasi peer instruction, pembelajaran inkuiri terbimbing dan pembelajaran konvensional, penguasaan konsep siswa yang belajar dengan pembelajaran inkuiri terbimbing integrasi peer instruction lebih tinggi daripada pembelajaran inkuiri terbimbing dan pembelajaran konvensional, dan kemampuan berpikir kritis siswa yang belajar dengan pembelajaran inkuiri terbimbing integrasi peer instruction lebih tinggi daripada pembelajaran inkuiri terbimbing dan pembelajaran konvensional. The research aimed to determine the differences of concepts acquisition and critical thinking skills among students having peer instruction integrated guided inquiry learning, guided inquiry and conventional learning. Beside that, the research also aimed to determine the influence of peer instruction integrated guided inquiry learning, guided inquiry and conventional learning respectively to the concepts acquisition and critical thinking skills. The research used a quasi-experimental with posttest only design. The data were analysed by using multivariate analysis (manova) which was followed by LSD test. The results showed that, there were differences of concepts acquisition and critical thinking skills among students who used peer instruction integrated guided inquiry learning, guided inquiry learning and conventional learning. The concepts acquisition of students having peer instruction integrated guided inquiry learning was higher than that of guided inquiry learning and conventional learning, while critical thinking skills of students with peer instruction integrated guided inquiry learning is higher than that with guided inquiry learning and conventional learning.
KEMAMPUAN PEMECAHAN MASALAH FISIKA PADA MODELING INSTRUCTION PADA SISWA SMA KELAS XI Sujarwanto, E.; Hidayat, A.; Wartono, W.
Jurnal Pendidikan IPA Indonesia Vol 3, No 1 (2014): April 2014
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v3i1.2903

Abstract

Tujuan dari penelitian ini adalah untuk mengetahui kemampuan pemecahan masalah fisika siswa dalam modeling instruction. Penelitian ini menggunakan mixed method desain embedded experimental model. Hasil penelitian menunjukkan modeling instruction meningkatkan kemampuan pemecahan masalah fisika dibandingkan pembelajaran konvensional. Hal ini karena modeling instruction menekankan pada pembangunan pemahaman konsep melalui pemodelan yang ditunjukkan dengan diagram, grafik, dan gambar sebelum siswa menyajikan dalam representasi matematis. Modeling instruction memfasilitasi siswa dalam mengkonstruksi pengetahuan dan pemecahan masalah melalui kegiatan yang ilmiah. Kemampuan pemecahan masalah fisika siswa lebih baik setelah belajar dengan modeling instruction. Perkembangan kemampuan pemecahan masalah fisika siswa setelah belajar dengan modeling instruction ditunjukkan dengan perkembangan yang lebih baik dalam mengenali masalah berdasarkan konsep, membuat representasi dari masalah, dan evaluasi terhadap solusi dan konsep yang digunakan. Kegiatan modeling instruction yaitu seperti meminta siswa memberikan penjelasan konseptual terhadap pendapat dan jawaban secara lisan atau tulis dan pemberian masalah untuk dikelompokkan berdasarkan konsep mampu memberikan alternatif lain dalam penilaian dari hanya sekedar paper and pencil test. The purpose of this study was to determine the students’ problem-solving ability in modeling the physics instruction. This study used a mixed method design of embedded experimental models. The results showed a modeling instruction improves problem-solving ability than conventional learning physics. This is because the modeling instruction emphasizes the development of conceptual understanding through modeling that indicated by diagrams, graphs, and images before the student presents the mathematical representation. Modeling instruction facilitates students in constructing knowledge and solving problems through scientific activities. Physics students’ problem solving skills through learning by modeling instruction. The development of problem-solving ability of students after studying physics at modeling the instruction indicated by the development of better identify problems based on the concept , making the representation of the problem , and the evaluation of the solutions and concepts used. Activity modeling instruction is like asking students to give a conceptual explanation of the opinions and answer orally or in writing and giving problems to be grouped based on the concept able to provide another alternative in the assessment of just a paper and pencil test.
Students’ Scientific Explanation in Blended Physics Learning with E-Scaffolding Oktavianti, E.; Handayanto, S. K.; Wartono, W.; Saniso, E.
Jurnal Pendidikan IPA Indonesia Vol 7, No 2 (2018): June 2018
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v7i2.14232

Abstract

This purpose of this research was to analyze the influence of blended physics learning with e-scaffolding on the gas kinetic theory to the students’ scientific explanation. This research used quasi-experimentation with one group pretest-posttest design. The population of this research included the grade XI students of Natural Sciences in SMA Negeri 1 Bangkalan. The proposed hypothesis was that the blended physics learning with e-scaffolding affected the students’ scientific explanation. The research results indicated that the students’ scientific explanation ability significantly increased after they experienced blended physics learning with e-scaffolding. All aspects of scientific explanation, that was the claim, evidence, and reasoning improved significantly.
ANALYSIS OF MENTAL MODEL OF STUDENTS USING ISOMORPHIC PROBLEMS IN DYNAMICS OF ROTATIONAL MOTION TOPIC Khasanah, N.; Wartono, W.; Yuliati, L.
Jurnal Pendidikan IPA Indonesia Vol 5, No 2 (2016): October 2016
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v5i2.5921

Abstract

The analysis of mental models is a part of the identification of students' thoughts on the concept. Mental models analysis is conducted by conditioning the complex problems such as the isomorphic issues. The research objective is to analyze the development of students' mental models on the topic rotational motion dynamics. The study was designed with the mixed method. The design phase of the research was conducted in both quantitative and qualitative approach. The quantitative phase was performed by providing pre-test, learning, and post-test containing isomorphic problems; while qualitative phase was implemented by interview and quiz. The data were analyzed quantitatively and qualitatively. The results of the study categorizes mental models into three types, i.e. Low Mental Model (LMM), Moderate Mental Model (MMM), and High Mental Model (HMM). Based on the pre-test results, it was proved that all students used Low mental model in resolving the isomorphic problems. Using the Low Mental Model, it was found that students have misconceptions on the moment of force and moment of inertia. Mental models developed gradually from Low mental model to Moderate Mental Model and then reached the High Mental Model Mental. It was observed from the results of pre-test, quizzes, and post-test. The quiz and post-test results showed the students who used Mental Model and High Mental Model.
Co-Authors A. Hidayat A.A. Ketut Agung Cahyawan W Adila, Agista Sintia Dewi Agung Wahyu Nurcahyo Agus Hadi Nuryanto Agus Suyudi Amrizaldi Amrizaldi Apilya Putirulan Arif Hidayat Bartlolona, J. R. Batlolona, J. R. Batlolona, John Rafafy Desella Inna Rahmatina Dwi Hartoyo E. Sujarwanto E. W. N. Sofianto, E. W. N. Erwinestri Hanidar Nur Afifi Feny Puspitaningsih Hadi Suwono Handayanto, S. K. Hermawanto - I. H. Wenno I.D. Kurniawati Ida Bagus Rini Jayanti Ida Bagus Rini Jayanti Intan Febry Sulasiwi Intan Febry Sulasiwi Johannis Takaria Lia Yuliati Lia Yuliati M. Abdurrahman Sunni M. Diantoro Mar ’atus Sholihah Markus Diantoro Matsna Khoirun Nisak Muh. Rozaqul Fadlli Muhammad Nur Hudha Nenohai, A. J. W. T. Nilasari Nilasari Ogi Danika Pranata Oktavianti, E. Parno Rahmadhani Pratama Risa Agustin S. Kusairi Saniso, E. Sentot Kusairi Siswono, Hendrik Sumarjo Sumarjo Supriyono Koes Handayanto Sutopo Sutopo Thorieq Moh. Yusuf Tiara Dini Santika Yuliana Vinda Nur Fitriana Y. M. Jayanti Yurdabakan, I. Zidni Ansori