Universitas Muhammadiyah Malang, East Java, Indonesia 

 

JPBI (Jurnal Pendidikan Biologi Indonesia) 
 

p-ISSN 2442-3750, e-ISSN 2537-6204 // Vol. 5 No. 3 November 2019, pp. 489-496 

 

 

        10.22219/jpbi.v5i3.9784                                http://ejournal.umm.ac.id/index.php/jpbi                     jpbi@umm.ac.id  489 

Research Article 

The effectiveness of animal physiology practical book 
based on guided inquiry model  
 

Rina Widiana a,1,*, Diana Sussanti a,2, Silvi Susanti a,3, Ramadhan Sumarmin b,4 
a Biology Education Study Program, STKIP PGRI Sumatera Barat, Jl. Gunung Pangilun, Padang, West Sumatera 25000, Indonesia 
b Biology Department, Faculty of Mathematics and Natural Sciences, Universitas Negeri Padang, Jl. Prof. Dr. Hamka, Air Tawar,  
  Padang, West Sumatera 25131, Indonesia 
1 rinaroesdi68@gmail.com *, 2 ramadhan-sum@fmipa.unp.ac.id , 3 dianasusantimpd@yahoo.co.id, 4 silvisusanti@gmail.com 
* Corresponding author 

 

INTRODUCTION 

Submission of material physiology of animals has only used power point media and printed book sources. 
There are no special learning resources that are able to direct the achievement of the course. Media 
education is very important to support the achievement of educational goals (Koksal & Berberoglu, 2014; 
Mulyana, Rusdi, & Vivanti, 2018). Power point designed for this is from a variety of sources of printed books, 
but there is still a shortage because there are few things more specific in animal physiology college student 
cannot be expressed in the learning process. While the practical guide used as a complement to students 
'understanding of lectures has also not been able to provide maximum results for students' understanding. 
Practical guide used only consists of the introduction of material, work steps and questions. This has not been 
able to provide benefits as a good teaching material. One of the roles of teaching materials according to 
includes the role for teachers, students, in classical, individual, and group learning (Sukariasih, Saputra, 
Ikhsan, Sejati, & Nisa, 2019).  

A R T I C L E  I N F O   A B S T R A C T   

 

Article history 
Received June 29, 2019 

Revised November 02, 2019 

Accepted November 23, 2019 

Published November 30, 2019 

 

 The effectiveness of animal physiology practical book based on guided inquiry model is 
the essential factor to achievement student understanding a about animal physiology 
concepts. The purpose of this study was to observe the effectiveness of animal 
physiology practical book based on guided inquiry model in Padang State University. 
The variables measured were affective, cognitive, psychomotor, and students’ activities. 
The data of this pre-experimental research were analyzed using averaged, percentage 
and standardized with Institutional assessment criteria. The results showed that the 
mean values were: 90.56 for affective competency (Criteria A), 82 for knowledge 
(Criteria A), and 89.66 for skills (Criteria A). Meanwhile, the percentage of student 
activities was 90.74% with very active category. It can be concluded that the 
effectiveness of practical book based on guided inquiry model was very effective to 
optimized student competences.  

 

Copyright © 2019, Widiana et al  

This is an open access article under the CC–BY-SA license 

    

 

 
Keywords 
Animal physiology 

Guided inquiry 

Practical book  

 

 

  

 
How to cite:  Widiana, R., Susanti, D., Susanti, S., & Sumarmin, R. (2019). The effectiveness of animal physiology practical book 

based on guided inquiry model. JPBI (Jurnal Pendidikan Biologi Indonesia), 5(3), 489-496. doi: https://doi.org/10.2 
2219/jpbi.v5i3.9784 

 

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As teaching material that is able to provide skills and enhance student understanding, the practical guiding 
component used so far is not feasible. The correct guiding component of the practicum is to have an 
introduction, practicum objectives, basic theory, tools and materials, work steps / procedures, data / results of 
observations, discussion, questions and conclusions (Faradilla, Hasan, & Sulastri, 2018; Hasibuan, Saragih, & 
Amry, 2018; Widiana, Sumarmin, Susanti, & Susanti, 2019). Because of the lack of components in the 
practicum guide, students are unable to find out for themselves the knowledge that is being discussed. 
Practical guide for animal physiology has been developed to the level of effectiveness in the university itself 
with the results of activities that are very effective and learning outcomes are at level B for three domains of 
assessment, namely affective, cognitive and psychomotor, besides the activity of developing the stage 
develop guide which is also done with very effective criteria (Widiana, Sumarmin, Susanti, & Susanti, 2018)  

Experimentation is a complex problem-solving process. In biology lessons, experiments involve creative 
thinking and open discovery; however, they still require some degree of instructional guidance (Großmann & 
Wilde, 2019). Practical guides that have been developed are guided inquiry based. Guided inquiry enables 
students to identify problems, define hypotheses, formulate problems, collect data, verify results, and 
generalize conclusions (Choirunnisak, Ibrahim, & Yuliani, 2018; Matthew & Kenneth, 2013). The advantages 
of guided inquiry include lecturers who do not just let go of student activities, so students are able to take part 
in the activities being carried out well without thinking about the level of ability of students. Thus according to 
Irwan, Maridi, & Dwiastuti, (2019) guided inquiry learning is estimated to be used as an alternative in learning. 
In order for a practical guide to be used more broadly, then continued the disseminate research at Padang 
State University. Research on the development of practical guidance based on guided inquiry approaches has 
been carried out. According to Suprianto, Kholida, & Andi, (2017) the development of a basic physics 
practicum guide 1 was based on guided inquiry to improve students' hard skills and soft skills in good criteria. 
Likewise with the research Repdayanti, Mawardi & Oktavia, (2018) the guided inquiry-based student 
worksheet has been valid, practical, and effectively used in the chemistry learning process at the rate material 
of the reaction. Meanwhile according to Citrawathi & Adnyana, (2018) learning using question-based inquiry 
module on human’s digestion system has a significant effect on increasing science process and student 
learning process. The development of guided inquiry-based learning devices on photosynthesis and 
respiration matter was feasible to train students literacy science skills (Choirunnisak et al., 2018). 

Various practical book development studies have been carried out, unfortunately there is still not much 
going through the dissemination stage. This research is the disseminate stage of the four D model and is a 
continuation of the develop stage (Widiana et al., 2019; Widiana et al., 2018).The purpose of this study was to 
see the results of disseminate at Padang State University in terms of affective, cognitive, psychomotor, activity 
using guided inquiry-based animal physiology practicum. 

 

METHOD 

This research is a development study using Four-D models. The stage to be examined is the 
disseminate stage. This disseminate stage looks at student learning outcomes in the realm of attitudes, 
knowledge and skills as well as student activities while using physiology practicum guides based on guided 
inquiry. The research data consisted of the effectiveness values of practicum guides in the formation of 
attitudes, cognitive, psychomotor and student activities.  Data was taken at 3 practicum meetings. Aspects of 
attitude include discipline, responsibility and coordination, cognitive includes pre-test and post-test scores, 
psychomotor includes preparation, implementation and reporting, and activities include practicum and writing 
practical result. 

This research was conducted at Universitas Negeri Padang 2018/2019 academic year. The sample in 
this study was 30 students participating in animal physiology practicum in the even semester 2018/2019 in 
the Biology Education Study Program, Faculty of Mathematics and Natural Sciences (Fakultas Matematika 
dan Ilmu Pengetahuan Alam/FMIPA) Universitas Negeri Padang. Data colection of attitude, psychomotor and 
activity using questionnaires using a modified questionnaire from (Susanti, Sri, Fitriani, Riandi, & Supriatno, 
2018), and cognitive data using written tests in the form of assays. Data analyses of attitude, psychomotor, 
and activity in the form of percentages as shown in Formula 1 (Riduwan, 2006).  

  

Percentage Value =   X 100%                  (1) 

 



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Analysis of cognitive data in an average form and processing assessment of knowledge obtained by 

students using learning completeness formula (Trianto, 2009), as shown in Formula 2.   

 

KB =  x 100                       (2) 

 
Where KB: Learning completeness; T: Number of scores obtained by students; and Tt: Total score. 
 

The level of success of student learning using the following standards of attitude, knowledge and 
psychomotor assessment, can be seen in Table 1. 
 

Table 1. The level of success of student learning 

Value Conversion 

81-100 A 
66-80 B 
56-65 C 
46-55 D 
≤ 45 E 

 Source: (STKIP PGRI Sumatera Barat, 2017) 
 

The classification of learning activities using the modified (Riduwan, 2006). Classification is shown in Table 
2. 
 

Table 2. Criteria for student learning activities 

Achievement Level (%) Conversion 

81 – 100 Very good / very effective 
61 – 80 good / effective 
41 - 60 Sufficient / quite effective 
21 - 40 Poor / less effective 
1 – 20 Not good / ineffective 

 

RESULTS AND DISCUSSION 

The results of evaluating the effectiveness of the use of animal physiology practicum based on guided 
inquiry approaches to the formation of attitudes, cognitive and student activities. Guided inquiry-based 
practicum guides have been used for 3 meetings. The results of the analysis of the assessment of attitudes, 
knowledge, motivational skills and student learning activities can be seen in the following Figure 1. 

 

 
 

Figure 1. Average effectiveness value in each aspect  



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Based on Figure 1, the effectiveness value of the use of practicum guides based on guided inquiry 
approaches in animal physiology courses in affective formation is 90.56%, psychomotor is 89.66%, activity is 
90.74% with very effective criteria and the average value of knowledge is 82 with the predicate A. These 
results indicate that the guideline of animal physiology practicum based on guided inquiry approach is 
effectively used in the implementation of practicum in the Biology Education Study Program-UNP. The ability 
of students in constructing answers and thinking intelligently in solving problems, developing skills in 
understanding concepts, building a sense of responsibility and communicating concepts found can be trained 
through guided inquiry (Stender, Schwichow, Zimmerman, & Härtig, 2018; Sukariasih et al., 2019). The 
guided inquiry was a learning model that was able to hone students' ability worked scientifically through 
investigation with coherent stepped so as facilitated students in carrying out practicum (Repdayanti et al., 

2018; Widyaningrum & Wijayanti, 2018). The results of the assessment using guided inquiry-based practicum 
guides fall into the very good category. Attitude assessment, the observed aspects are discipline, 
responsibility and cooperation. The average value of each meeting aspect of this attitude can be seen in 
Table 3. 
 

Table 3. Average effectiveness value for each indicator of attitude assessment 

Aspects 
Meeting  

1 2 3 

Discipline 86.21 90.74 91.67 
Responsibility and cooperation 88.79 92.59 93.3 

Average 87.5 91 665 92 485 

 
Based on Table 3, average assessment contained each meeting, the assessment of progress even in 

category A. From each the meeting, it seems that students have been careful in observing and understanding 
all parts of the practical guide, following all the instructions contained in the practical guide with discipline, 
working in accordance with the stages of work steps and time allocated, carefully and skillfully using tools and 
materials and pay attention to work order and safety during practical activities. In addition, students also 
appear to collaborate in preparing and compiling practical tools and materials according to the stages of work 
before practicum begins, participating in collaboration in carrying out each step of the work step, collaborating 
in understanding problems and formulating hypotheses, collaborating in seeking theoretical foundations and 
collecting, analyze data and interpret data and collaborate in developing discussions and conclusions, 
preparing presentation materials and reflecting.  

The guided inquiry activities phase contained in practical guides can be carried out by students, with 
lecturers or assistants as facilitators. It makes student interaction in learning better. The scientific attitude of 
students learning with inquiry builds better social interaction (Sitorus & Edi, 2017). In addition, guided inquiry-
based animal physiology guides are able to guide students to thorough, responsibility and cooperation with 
the stages that already exist in the guide. Students are able to do research repeatedly and ongoing guidance 
will be an advantage after learning inquiry (Agustanti, 2012). The assessment of knowledge, each student 
performs pretest and posttest activities at each meeting. At the final meeting, students are given a test 
according to the material that has been done Structured inquiry learning can not only lead to sustainable 
knowledge but also reveal long-term acquisition of knowledge as positively linked to students’ effort during the 
inquiry lesson (Schmid & Bogner, 2015). The details of the assessment of knowledge that has been passed 
by students are in the following Table 4. 

 
Table 4. Average cognitive values for pretest and posttest and for each aspect of attitude analysis of knowledge assessment  

Meeting 

Final test  1 2 3 

Pretest Posttest Pretest Posttest Pretest Posttest 

43.01 (E) 69.73 (B) 59.64 (C) 78.72 (B) 64.67 (C) 85.33 (A) 82 (A) 

 
Based on Table 4. Assessment looks improvement of student learning outcomes for each meeting. The 

first meeting with an average pretest score was still in category E when the posttest after using a guided 
inquiry-based guide increased to B. At the second meeting the value of pretest with category C had increased 
from the first meeting, while the posttest value with category B looked the same as the first meeting but the 
average increases from the first meeting. As for the third meeting of the pretest results are still at C category 
and the average assessment increase from the first meeting and the second, to posttest a category. It’s higher 



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than the first and second meetings. The final test results showed that students using guided inquiry-based 
practicum guides increased with value A. This shows that guided inquiry-based practicum guides can improve 
student learning outcomes and increase students' understanding lecture on animal physiology.  

Focuses students’ attention on a particular aspect of their engagement and exploration experiences and 
provides opportunities to demonstrate their conceptual understanding, process skills, or behaviors (Abdi, 
2014). Guided inquiry learning and scientific performance influenced learning outcomes, because students 
are given the opportunity to solve their own problems and studied independently based on problems (Mulyana 
et al., 2018; Ningsih & Said, 2018; Sardin, 2015; Sukariasih et al., 2019). The application of guided inquiry can 
improve students' scientific attitudes and analytical skills, because students experience direct experience with 
material objects. (Niana, Sarwanto, & Ekawati, 2016; Sukariasih et al., 2019). Repetition of systematic and 
scientific thinking skills is an important ability for students to continue learning inquiry (Boaventura & Faria, 
2015). Build knowledge and understanding of how a scientist works is focused on student Inquiry activities 
(Fikri, Ismah, & Paidi, 2018; Sitorus & Edi, 2017). Thus guided inquiry can help improve student learning 
outcomes. The results of the skills assessment analysis for each meeting can be seen in Table 5. 

 
Table 5. Average effectiveness value for each indicator of psicomotor analysis of results of skills assessment 

Aspect 
Meeting 

1 2 3 

Preparation 80.17 92.59 90 

Implementation 83.26 93.52 90.83 

Reporting 87.93 94.44 94.17 

Average 83.79 93.52 91.67 

 
The skills assessment analysis that has been done there is an increase in skills possessed by students for 

each meeting (Table 5). The skill assessment range is in category A but the average of each meeting has 
increased. If seen from the indicator of the assessment, it is seen that students make preparation, 
implementation and practical reporting. For the preparation stage (preparing tools, materials and 
understanding the work steps in the practicum guide), students have prepared complete practicum tools and 
materials according to practical needs, besides the tools and materials also look well organized and 
understand the work steps before the lab starts. At the implementation stage (carrying out and retrieving data) 
students have been skilled in using the tools and materials appropriately according to their functions, students 
have also carried out activities according to the instructions in the practical guide carefully, thoroughly and 
sequentially, completing all work according to time allocation and maintaining work security.  

At the reporting stage (processing and analyzing data and reporting the results of lab work), it appears that 
students have been able to display, process, analyze and interpret data, conclude the results and arrange into 
the form of lab reports. Guided inquiry model with starter experiment approach in teaching science process 
skills of the students is effective, because it gives students a complex thinking space (Wardani & Djukri, 
2019). So that by using a guided inquiry-based practicum guide, it can train students to find and solve several 
problems with the skills they have and guided inquiry stages that are in the guide when in their small group 
(Walker & Warfa, 2017). Accordance with the opinion Students work in small groups in the classroom or in the 
laboratory in an instructional module that presents information or data, followed by questions that lead are 
designed to guide students towards the formulation of conclusions (Khasanah, Susilaningsih, & Nuswowati, 
2017). Because in guided inquiry, students design and organize their own experiments (Fang et al., 2016). 
Inquiry learning affected student performance on the written report for the practical activity. The effective way 
to enhance student understanding of physiological concepts and experimental processes, allowing for a more 
realistic experience of the scientific method and a more effective use of time in practical classes (Quiroga & 
Choate, 2019). Student activities using a practical guide for each meeting can be seen in the following Table 
6. 
  

Table 6. Average effectiveness value for each indicator of activities student activity analysis 

Aspects 
Meeting 

1 2 3 

Practicum 85.34 87.04 96.67 
Writing practical results 87.07 91.67 96.67 

Average 86.20 89.36 96.67 

 



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Student learning activities increase for each meeting; activities observed during practicum include practicum 
and write the results of the laboratory (Table 6). At the stage of conducting the practicum, it was seen that 
students were able to identify the scope of the problems contained in the practical guide, plan and predict 
results, investigate and interpret to collect data, develop conclusions and reflections. Practicable inquiry 
learning also provide opportunities for students to control variables, design experiments, analyze results and 
interpret data that can train students to reason (Sundari, Pursitasari, & Heliawati, 2017; Ural, 2016). Whereas to 
write the results of the practicum, students have sorted the presentation systematically, the results of the 
practicum have answered the practicum objectives formulated, the practicum results are in accordance with the 
content and students have used the correct wording. Guided inquiry-based animal physiology guides have 
been able to increase student activities in finding their own knowledge and making learning effective (Putra, 
Sumarmin, & Violita, 2018). Accordance to Hidayah & Lailiy, (2018) that learning with guided inquiry is more 
effective in the process of learning science. Inquiry is a learning model that is organized to help students and 
teachers develop an understanding of the processes of natural phenomena and social activities taking place 
more easily, Guided inquiry gives students more open opportunities, but the teacher's ability also influences the 
implementation of the approach (Bunterm et al., 2014; Susanti et al., 2018), and increase of hard skills and soft 
skill of students (Suprianto et al., 2017). 

 

CONCLUSION 

 The guideline of Physiology practicum based on guided inquiry approach is effectively used to fulfill learning 
outcomes, including attitudes 90.56%, psychomotor 89.66% and activity 90.74% with very effective criteria, and 
cognitive 82 with predicate A. Based on the results and discussion, it can be concluded that the effectiveness of 
practicum guides based on guided inquiry have very effective to approve the learning outcomes.   
 

ACKNOWLEDGMENT 

 On this occasion the author would like to thank DRPM (Direktorat Riset dan Pengabdian Masyarakat or 
Directorate of Research and Community Engagement) of Ministry of Research and Technology of the 

Republic of Indonesia Year 2019 Grand, Biology Education Study Program STKIP PGRI Sumatera Barat, 
and Faculty of Mathematics and Natural Sciences Universitas Negeri Padang to support this research. 

 

REFERENCES 

Abdi, A. (2014). The effect of inquiry-based learning method on students’ academic achievement in science 
course. Universal Journal of Educational Research, 2(1), 37–41. doi: https://doi.org/10.13189/ujer.2014 
.020104 

Agustanti, T. H. (2012). Implementasi metode inquiry untuk meningkatkan hasil belajar biologi. Jurnal 
Pendidikan IPA Indonesia, 1(1), 16–20. doi: https://doi.org/10.15294/jpii.v1i1.2007 

Boaventura, D., & Faria, C. (2015). Science inquiry-based activities in elementary education: How to support 
teachers‟ practices? International Journal of Information and Education Technology, 5(6), 451–455. doi: 
https://doi.org/10.7763/ijiet.2015.v5.548 

Bunterm, T., Lee, K., Ng Lan Kong, J., Srikoon, S., Vangpoomyai, P., Rattanavongsa, J., & Rachahoon, G. 
(2014). Do different levels of inquiry lead to different learning outcomes? A comparison between guided 
and structured inquiry. International Journal of Science Education, 36(12), 1937–1959. doi https://doi.o 
rg/10.1080/09500693.2014.886347 

Choirunnisak, Ibrahim, M., & Yuliani. (2018). The development of guided inquiry-based learning devices on 
photosynthesis and respiration matter to train science literacy skills. IOP Conference Series: Materials 
Science and Engineering, 296(1), 012002. doi: https://doi.org/10.1088/1757-899X/296/1/012002 

Citrawathi, D. M., & Adnyana, P. B. (2018). Question-based inquiry module can be to increase science 
process skills on the study of humans digestive system. Journal of Physics: Conference Series, 
1116(5), 052016. doi: https://doi.org/10.1088/1742-6596/1116/5/052016 

Fang, S. C., Hsu, Y. S., Chang, H. Y., Chang, W. H., Wu, H. K., & Chen, C. M. (2016). Investigating the 
effects of structured and guided inquiry on students’ development of conceptual knowledge and inquiry 

https://doi.org/10.13189/ujer.2014.020104
https://doi.org/10.13189/ujer.2014.020104
https://doi.org/10.15294/jpii.v1i1.2007
https://doi.org/10.7763/ijiet.2015.v5.548
https://doi.org/10.1080/09500693.2014.886347
https://doi.org/10.1080/09500693.2014.886347
https://doi.org/10.1088/1757-899X/296/1/012002
https://doi.org/10.1088/1742-6596/1116/5/052016


JPBI (Jurnal Pendidikan Biologi Indonesia) 
Vol. 5, No. 3, November 2019, pp. 489-496 

 

495  

 Widiana et al (The effectiveness of animal physiology practical …) 

abilities: A case study in Taiwan. International Journal of Science Education, 38(12), 1945–1971. doi: 
https://doi.org/10.1080/09500693.2016.1220688 

Faradilla, M., Hasan, M., & Sulastri. (2018). The effectiveness of guided inquiry-based student worksheets on 
students’ generic science skills. Journal of Physics: Conference Series, 1088, 1–7. doi: https://doi.org 
/10.1088/1742-6596/1088/1/012106 

Fikri, A. A., Ismah, V., & Paidi, P. (2018). Pengembangan perangkat pembelajaran model guided inquiry untuk 
meningkatkan creative thinking siswa. Thabiea : Journal of Natural Science Teaching, 1(1), 1–8. doi: 
https://doi.org/10.21043/thabiea.v1i1.3651 

Großmann, N., & Wilde, M. (2019). Experimentation in biology lessons: guided discovery through incremental 
scaffolds. International Journal of Science Education, 41(6), 759–781. doi: https://doi.org/10.1080/0950 
0693.2019.1579392 

Hasibuan, A. M., Saragih, S., & Amry, Z. (2018). Development of learning materials based on realistic 
mathematics education to improve problem solving ability and student learning independence. 
International Electronic Journal of Mathematics Education, 14(1), 243–252. doi: https://doi.org/10.2933 
3/iejme/4000 

Hidayah, R., & Lailiy, N. (2018). Guided inquiry model to promote science process skill students on acid-base. 
Proceedings of the Mathematics, Informatics, Science, and Education International Conference 
(MISEIC 2018), 157(January), 96–97. doi:  https://doi.org/10.2991/miseic-18.2018.23 

Irwan, I., Maridi, M., & Dwiastuti, S. (2019). Developing guided inquiry-based ecosystem module to improve 
students’ critical thinking skills. JPBI (Jurnal Pendidikan Biologi Indonesia), 5(1), 51–60. doi: https://doi. 
org/10.22219/jpbi.v5i1.7287 

Khasanah, F., Susilaningsih, E., & Nuswowati, M. (2017). Guided inquiry-based questions integrated practice 
worksheets design to improve laboratory skills and knowledge. Journal of Innovative Science Education, 
6(2), 235–242. doi: https://doi.org/10.15294/JISE.V6I2.16625 

Koksal, E. A., & Berberoglu, G. (2014). The effect of guided-inquiry instruction on 6th grade Turkish students’ 
achievement, science process skills, and attitudes toward science. International Journal of Science 
Education, 36(1), 66–78. doi: https://doi.org/10.1080/09500693.2012.721942 

Matthew, B. M., & Kenneth, I. O. (2013). A study on the effects of guided inquiry teaching method on students 
achievement in logic. International Researcher, 2(1), 135–140. Retrieved from http://iresearcher.org/133 
-140 BAKKE M.MATTHEW gambia.pdf 

Mulyana, S., Rusdi, R., & Vivanti, D. (2018). The effect of guided inquiry learning model and scientific 
performance on student learning outcomes. Indonesian Journal of Science and Education, 2(1), 105–
109. doi: https://doi.org/10.31002/ijose.v2i1.596 

Niana, R., Sarwanto, & Ekawati, E. Y. (2016). The application of guided inquiry model on physic learning to 
improve scientific attitude and students’ analysis ability. Proceeding The 2nd International Conference 
On Teacher Training and Education Sebelas Maret University, 2(1), 605–615. Retrieved from 
https://jurnal.uns.ac.id/ictte/article/view/7168 

Ningsih, P., & Said, I. (2018). Application of guided inquiry learning model with mind map toward students’ 
learning outcomes in chemistry material: Reaction rate. Proceedings of the First Indonesian 
Communication Forum of Teacher Training and Education Faculty Leaders International Conference on 
Education 2017 (ICE 2017), (June), 586–589. doi: https://doi.org/10.2991/ice-17.2018.126 

Putra, Z. A. Z., Sumarmin, R., & Violita, V. (2018). Development of animal physiology practical guidance 
oriented guided inquiry for student of biology department. IOP Conference Series: Materials Science 
and Engineering, 335(1), 012087. doi: https://doi.org/10.1088/1757-899X/335/1/012087 

Quiroga, M. D. M., & Choate, J. K. (2019). A virtual experiment improved students’ understanding of 
physiological experimental processes ahead of a live inquiry-based practical class. Advances in 
Physiology Education, 43(4), 495–503. doi: https://doi.org/10.1152/advan.00050.2019 

Repdayanti, Mawardi, & Oktavia, B. (2018). The development of student worksheets based on guided inquiry 
by class and laboratory activity for reaction rate material at the 11th grade in high school. International 
Journal of Progressive Sciences and Technologies, 8(2), 286–294. Retrieved from http://ijpsat.ijsht-
journals.org/index.php/ijpsat/article/view/409/236 

Riduwan, M. B. . (2006). Belajar mudah penelitian untuk guru-karyawan dan peneliti muda. Retrieved from 
https://scholar.google.com/scholar?hl=id&as_sdt=0%2C5&q=MBA+Riduwan&btnG= 

Sardin, S. (2015). Perbandingan keefektifan pembelajaran guided inquiry dan problem solving ditinjau dari 
prestasi belajar peluang, kemampuan penalaran, dan sikap siswa terhadap matematika. 

https://doi.org/10.1080/09500693.2016.1220688
https://doi.org/10.1088/1742-6596/1088/1/012106
https://doi.org/10.1088/1742-6596/1088/1/012106
https://doi.org/10.21043/thabiea.v1i1.3651
https://doi.org/10.1080/09500693.2019.1579392
https://doi.org/10.1080/09500693.2019.1579392
https://doi.org/10.29333/iejme/4000
https://doi.org/10.29333/iejme/4000
https://doi.org/10.2991/miseic-18.2018.23
https://doi.org/10.22219/jpbi.v5i1.7287
https://doi.org/10.22219/jpbi.v5i1.7287
https://doi.org/10.15294/JISE.V6I2.16625
https://doi.org/10.1080/09500693.2012.721942
http://iresearcher.org/133-140%20BAKKE%20M.MATTHEW%20gambia.pdf
http://iresearcher.org/133-140%20BAKKE%20M.MATTHEW%20gambia.pdf
https://doi.org/10.31002/ijose.v2i1.596
https://jurnal.uns.ac.id/ictte/article/view/7168
https://doi.org/10.2991/ice-17.2018.126
https://doi.org/10.1088/1757-899X/335/1/012087
https://doi.org/10.1152/advan.00050.2019
http://ijpsat.ijsht-journals.org/index.php/ijpsat/article/view/409/236
http://ijpsat.ijsht-journals.org/index.php/ijpsat/article/view/409/236
https://scholar.google.com/scholar?hl=id&as_sdt=0%2C5&q=MBA+Riduwan&btnG=


 JPBI (Jurnal Pendidikan Biologi Indonesia)    
 Vol. 5, No. 3, November 2019, pp. 489-496 

 

496  

 Widiana et al (The effectiveness of animal physiology practical …) 

PYTHAGORAS: Jurnal Pendidikan Matematika, 10(2), 189. doi: https://doi.org/10.21831/pg.v10i2.9158 
Schmid, S., & Bogner, F. X. (2015). Effects of students’ effort scores in a structured inquiry Unit on long-term 

recall abilities of content knowledge. Education Research International, 2015, 1–11. doi: https://doi.org/1 
0.1155/2015/826734 

Sitorus, H. H., & Edi, S. (2017). The influence of inquiry learning model on student’s scientific attitudes in 
ecosystem topic at MTS. Daarul Hikmah Sei Alim (Islamic Junior High School) Asahan. International 
Journal of Humanities, Social Sciences and Education, 4(11), 170–175. doi: https://doi.org/10.20431/2 
349-0381.0411020 

Stender, A., Schwichow, M., Zimmerman, C., & Härtig, H. (2018). Making inquiry-based science learning 
visible: the influence of CVS and cognitive skills on content knowledge learning in guided inquiry. 
International Journal of Science Education, 40(15), 1812–1831. doi: https://doi.org/10.1080/09500693.2 
018.1504346 

STKIP PGRI Sumatera Barat. (2017). Buku pedoman akademik penyelenggaraaan pendidikan tahun 
akademik 2017/2018. Retrieved from https://baak.stkip-pgri-sumbar.ac.id/assets/BUKU_PEDOMAN_AK 
ADEMIK_2017.pdf 

Sukariasih, L., Saputra, I. G. P. E., Ikhsan, F. A., Sejati, A. E., & Nisa, K. (2019). Improving the learning 
outcomes of knowledge and inquiry skill domain on third grade students of SMP Negeri 14 Kendari 
through the guided inquiry learning model assisted by ccience kit. Geosfera Indonesia, 4(2), 175. doi: 
https://doi.org/10.19184/geosi.v4i2.10097 

Sundari, T., Pursitasari, I. D., & Heliawati, L. (2017). Pembelajaran inkuiri terbimbing berbasis praktikum pada 
topik laju reaksi. Pendidikan Sains Pascasarjana Universitas Negeri Surabaya, 6(2), 1340–1347. 
Retrieved from https://repository.unpak.ac.id/tukangna/repo/file/files-20181226022944.pdf 

Suprianto, S., Kholida, S. I., & Andi, H. J. (2017). Panduan praktikum fisika dasar 1 berbasis guided inquiry 
terhadap peningkatan hard skills dan soft skills mahasiswa. Momentum: Physics Education Journal, 
1(2), 122. doi: https://doi.org/10.21067/mpej.v1i2.2073 

Susanti, D., Sri, L. Y., Fitriani, V., Riandi, & Supriatno, B. (2018). Effectiveness of f the practical handbook 
based on problem based learning. International Journal of Progressive Sciences and Technologies, 
10(1), 67–70. Retrieved from http://repo.stkip-pgri-sumbar.ac.id/id/eprint/3580/ 

Trianto. (2009). Mendesain model pembelajaran inovatif progresif (1st ed.). Retrieved from 
https://scholar.google.com/scholar?hl=id&as_sdt=0%2C5&q=Alfabeta.+Trianto%2C+2009.+Mendesain
+Model+Pembelajaran+Inovatif-Progresif&btnG= 

Ural, E. (2016). The effect of guided-inquiry laboratory experiments on science education students’ chemistry 
laboratory attitudes, anxiety and achievement. Journal of Education and Training Studies, 4(4), 217–
227. doi: https://doi.org/10.11114/jets.v4i4.1395 

Walker, L., & Warfa, A. R. M. (2017). Process oriented guided inquiry learning (POGIL®) marginally effects 
student achievement measures but substantially increases the odds of passing a course. PLoS ONE, 
12(10), 1–17. doi: https://doi.org/10.1371/journal.pone.0186203 

Wardani, I., & Djukri, D. (2019). Teaching science process skill using guided inquiry model with starter 
experiment approach: An experimental study. JPBI (Jurnal Pendidikan Biologi Indonesia), 5(2), 277–
284. doi: https://doi.org/10.22219/jpbi.v5i2.8429 

Widiana, R., Sumarmin, R., Susanti, D., & Susanti, S. (2019). The practicality of practicum guidance based 
guided inquiry approach on animals physiology course. Journal of Physics: Conference Series, 1157(2). 
doi: https://doi.org/10.1088/1742-6596/1157/2/022077 

Widiana, Rina, Sumarmin, R., Susanti, S., & Susanti, D. (2018). The effectiveness and implementation of 
guiding practical based guided inquiry to improving learning outcomes on animal physiology. 
International Journal of Progressive Sciences and Technologies, 10(1), 126–133. Retrieved from 
http://ijpsat.ijsht-journals.org/index.php/ijpsat/article/view/539 

Widyaningrum, D. A., & Wijayanti, T. (2018). Developing of guided inquiry-based biochemistry practicum 
guidebook. JPBI (Jurnal Pendidikan Biologi Indonesia), 4(3), 209–214. doi: https://doi.org/10.22219/jpbi. 
v4i3.6857 

 
 

https://doi.org/10.21831/pg.v10i2.9158
https://doi.org/10.1155/2015/826734
https://doi.org/10.1155/2015/826734
https://doi.org/10.20431/2349-0381.0411020
https://doi.org/10.20431/2349-0381.0411020
https://doi.org/10.1080/09500693.2018.1504346
https://doi.org/10.1080/09500693.2018.1504346
https://baak.stkip-pgri-sumbar.ac.id/assets/BUKU_PEDOMAN_AKADEMIK_2017.pdf
https://baak.stkip-pgri-sumbar.ac.id/assets/BUKU_PEDOMAN_AKADEMIK_2017.pdf
https://doi.org/10.19184/geosi.v4i2.10097
https://repository.unpak.ac.id/tukangna/repo/file/files-20181226022944.pdf
https://doi.org/10.21067/mpej.v1i2.2073
http://repo.stkip-pgri-sumbar.ac.id/id/eprint/3580/
https://scholar.google.com/scholar?hl=id&as_sdt=0%2C5&q=Alfabeta.+Trianto%2C+2009.+Mendesain+Model+Pembelajaran+Inovatif-Progresif&btnG=
https://scholar.google.com/scholar?hl=id&as_sdt=0%2C5&q=Alfabeta.+Trianto%2C+2009.+Mendesain+Model+Pembelajaran+Inovatif-Progresif&btnG=
https://doi.org/10.11114/jets.v4i4.1395
https://doi.org/10.1371/journal.pone.0186203
https://doi.org/10.22219/jpbi.v5i2.8429
https://doi.org/10.1088/1742-6596/1157/2/022077
http://ijpsat.ijsht-journals.org/index.php/ijpsat/article/view/539
https://doi.org/10.22219/jpbi.v4i3.6857
https://doi.org/10.22219/jpbi.v4i3.6857