P-ISSN 2527-5615  

E-ISSN 2527-5607 

 

Kalamatika: Journal of Mathematics Education 

Volume 6, No. 2, November 2021, pages 111-126 

 

 This work is licensed under 
a Creative Commons Attribution - ShareAlike 4.0 

International License.  

111 

DEVELOPING A SET MODULE WITH A GUIDED INQUIRY AND 

TAHFIDZUL QURAN TO IMPROVE STUDENTS’ CRITICAL 

THINKING 

Akhmad Syahwanul Karim1, Yus Mochamad Cholily2, Mohammad Syaifuddin3 

1Muhammadiyah University of Malang, Jl. Raya Tlogomas No. 246, Malang, Indonesia. 

ask090293@gmail.com  
2Muhammadiyah University of Malang, Jl. Raya Tlogomas No. 246, Malang, Indonesia 

yus@umm.ac.id 
3Muhammadiyah University of Malang, Jl. Raya Tlogomas No. 246, Malang, Indonesia 

syaifuddin@umm.ac.id 

ABSTRACT 

This research aimed to develop a set module with a guided inquiry and Tahfidzul Quran (Quran memorization) 

to improve students' critical thinking. This research was a Research and Development (R&D) based on the 

ADDIE Model with a one-group of pre-test and post-test design conducted for  Year-7  students at an Islamic 

Boarding School in Malang, East Java.  The subjects in this study were 12 students. Three aspects were present 

in this module development: process, quality, and effectiveness. The results of this study showed that (1) The 

development of the set module with a guided inquiry approach and the Tahfidzul Quran process refers to the 

ADDIE development model with the following steps: analysis, design, development, implementation, and 

evaluation; (2) The set module has a suitable quality of use as the learning module satisfying the aspects of 

content, presentation, language, graphics, and tahfidz; (3) The use of the set module with the guided inquiry 

approach and Tahfidzul Quran is effective in improving students' critical thinking. The students’ responses to the 

learning module were positive.  In conclusion, a set module developed with the guided inquiry and Tahfidzul 

Quran to improve students' critical thinking has fulfilled the rules of process, quality, and effectiveness. 

ARTICLE INFORMATION 

Keywords  Article History 

Set Module 

Guided Inquiry 

Tahfidzul Quran 

Critical Thinking 
 

Submitted Dec 12, 2020 

Revised Aug 16, 2021 

Accepted Aug 25, 2021 

Corresponding Author 

Mohammad Syaifuddin 

Universitas Muhammadiyah Malang 

Jl. Raya Tlogomas 246 Malang, Jawa Timur, Indonesia 

Email: syaifuddin@umm.ac.id 

How to Cite 

Karim, A.S., Cholily, Y.M., & Syaifuddin, M. (2021). Developing a Set Module with A Guided Inquiry and 

Tahfidzul Quran to Improve Students’ Critical Thinking. Kalamatika: Jurnal Pendidikan Matematika, 6(2), 111-

126. 

https://doi.org/10.22236/KALAMATIKA.vol6no2.2021pp111-126 

http://creativecommons.org/licenses/by-sa/4.0/
http://creativecommons.org/licenses/by-sa/4.0/
mailto:ask090293@gmail.com
https://doi.org/10.22236/KALAMATIKA.vol6no2.2021pp111-126


112  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

INTRODUCTION 

One effective, efficient, and relevant media in learning mathematics is a module 

(Sari, Farida, and Syazali, 2016). Teaching materials designed in module forms have more 

value than ordinary printed books (Diana et al., 2018a). A module promotes independent 

learning so that its use can be performed with or without a facilitator or teacher (Lasmiyati, 

2014).  

However, the current learning module has not raised awareness and students’ ability 

to manage their thinking (Syahrir & Susilawati, 2016). The existing module also has several 

shortcomings, including: (1) it does not facilitate students to express their ideas so that it 

makes students feel difficult to adjust with the 2013 curriculum learning method; (2) it does 

not facilitate students to carry out active learning activities (scientific approach); (3) the 

module content is difficult to understand; and (4) it does not make students feel easier to 

adjust (Nikmah et al., 2016). 

Based on the description above, educators should develop their modules to minimize 

the shortage of modules. The advantages of the modules developed by educators are that 

educators can adapt to the students’ characteristics, including the stages of student 

development, the initial abilities that have been mastered, interests, family background, and 

so on (Khayati et al., 2016). In addition, educators can also answer or solve students’ 

problems or difficulties in teaching that have been experienced before (Prendergast et al., 

2017). A mathematics learning module that educators can develop themselves is a module 

that uses a guided inquiry approach (such as the modules with a guided inquiry approach 

developed by (Afandi, 2013) and a module integrated with the Quran (such as Sattriawan & 

Sutiarso, 2017; Kenedi, Helsa, Mansur, Hendri, & Nelliarti, 2018).  “The material of 

teaching that simultaneously involves the related Qur'an verses can make students realize 

and believe in the oneness of Allah and the truth of the Qur'an as the guide of a Muslim 

(Sudirman & Asriadi, 2018). The guided inquiry approach is an approach to teaching that 

provides direct learning experiences, involves activities, and invites students to carry out 

experimental activities in the form of guided discovery (Suryaningsih et al., 2016). The 

guided inquiry approach can improve students' conceptual understanding (Almuntasheri et 

al., 2016). 

In addition to helping students understand the concepts, the guided inquiry approach 

emphasizes critical thinking processes (Afandi, 2013). The ability to think critically is one 

of the goals of learning mathematics (Maričića & Špijunovićb, 2015). Critical thinking 

processes are part of higher order thinking skills that involve reasoning and logic to solve 



Karim, Cholily, & Syaifuddin     113 
 

 
 

problems (Arsal, 2015; Fuad, Zubaidah, Mahanal, & Suarsini, 2017). Therefore, students 

can master mathematics well (Winarso & Dewi, 2017). The Qur'an, which consists of verses, 

can be used as materials for learning mathematics and the process of memorizing the Qur'an. 

For example, a surah consisting of several verses can be presented randomly, and students 

can sort them correctly. Likewise, students can also combine scrambled fragments of verses 

into a complete version. The process of sorting verses and combining fragments of verses 

requires students to think critically. 

Critical thinking is also considered a combination of attitudes, knowledge, and skills 

(Arsal, 2015). The skills that must be possessed include listening and reading carefully, 

looking for and getting hidden assumptions, and exploring the consequences of a statement 

(Sulistyowati, 2015). Critical thinking in mathematics learning is important because students 

become more confident and easily adapt to math problems (Marfuah & Subanti, 2016). 

Besides, the need for critical thinking skills is due to the influence of the development of 

science and technology, which is currently developing very rapidly (Pradana et al., 2017). 

Regarding critical thinking as the goal of learning mathematics, activities to develop critical 

thinking skills have not received full attention from teachers and students (Marfuah & 

Subanti, 2016).  

A module that integrates mathematics learning with the Quran is also fundamental 

so that the essence of mathematics learning can be understood and applied appropriately 

(Nasution, 2017). Mathematics learning which is carried out by embedding the concept of 

the Quran, can also improve students' positive attitudes and great mathematical abilities; this 

is because the Quran is a guide for Muslims (Kenedi et al., 2018). Knowledge of the Quran 

is not limited to knowledge of one thing only; but it includes comprehensive knowledge of 

'haq' or truth and is recognized by nature, reason, and revelation (Che et al., 2017). Research 

also shows that the mathematical concepts in the Quran include: algebra, geometry, sets, 

measurement, statistics, logic, estimation, and others (Nasution, 2017). 

Many studies on module development with guided inquiry and integration with the 

Qur'an have been conducted. For example, the development of a guided inquiry module 

related to the conceptual understanding (such as  Diana, Netriwati, & Suri, 2018b) related to 

teacher and students’ responses (such as Mardiah, Widyastuti & Rinaldi, 2018). Besides, 

integrated module development using the Quran related to the conceptual understanding 

(such as Kurniati et al., 2018), related to teacher and students’ responses (such as Kenedi et 

al., 2018), and related to the character of the students (such as Masduki, Khotimah, Sutarni, 

Toyib, & Kholid, 2015) have also been performed. The development of a module that 



114  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

integrates both guided discovery and the Quran has also been carried out (Diana et al., 

2018b). However, the development of a module with a guided inquiry approach and 

integrated with the Quran as the material presentation adjusted to the process of  Tahfidzul 

Quran has not been carried out. In this study, the researcher adds an approach to presenting 

the material in the module using the Tahfidzul Quran process. 

The module developed is targeted to students in the tahfidz class, and it is integrated 

with the Tahfidzul Quran program to make significant differences regarding the development 

process. Tahfidz education is one of the developing education practices that gain attraction 

in Indonesia today (Nugroho, 2016). It has been reported that hafiz students tend to perform 

very well in academic subjects,  such as mathematics, languages, science, and religious 

subjects (Hassan et al., 2015). 

In developing this module, validation is also done by the tahfidz teacher to see the 

effectiveness of the process of memorizing Quran and its analysis. Given that learning 

mathematics in Islamic schools or the Tahfidz class still uses teaching materials as in a 

general class, classroom learning is the same as there is no innovation. Therefore, it appears 

that mathematics learning is separated from the Tahfidz program and does not support 

students' memorizing power in memorizing the Quran. Hence, it is essential to develop a 

module in the Tahfidz class that integrates the Tahfidzul Quran program with a guided 

inquiry approach to make learning mathematics more meaningful. Accordingly, the 

objectives of developing this module are: (1) To analyze the process of developing a set 

module with a guided inquiry approach and the process of Tahfidzul Quran to improve 

critical thinking; (2) To analyze the quality of the set module with a guided inquiry approach 

and the process of Tahfidzul Quran in terms of content feasibility, presentation feasibility, 

linguistic feasibility, graphic feasibility, and eligibility for Tahfidz students; (3) To analyze 

the effectiveness of using the set module with a guided inquiry approach and the process of 

Tahfidzul Quran to improve students' critical thinking. 

METHOD  

This study is a Research and Development (R&D) research using the ADDIE 

(Analysis, Design, Development, Implementation, and Evaluation) adopted from Ula & 

Fadila (2018), as presented in Figure 1. The research design used a one-group of pre-test and 

post-test design. Before the treatment was given, the samples (12 students) were given a pre-

test. At the end of the study, the samples were also given a post-test. The research was 

conducted at one of the Islamic boarding schools in Malang, East Java. The research subjects 



Karim, Cholily, & Syaifuddin     115 
 

 
 

were Year-7 students of tahfidz, particularly those who took part in the Quran memorization 

program. 

 

Figure 1. Module development procedure based on the ADDIE model Adopted from Ula & Fadila 

(2018) 

The analysis phase began see Figure 1 with a needs analysis, curriculum analysis, 

and analysis of the Tahfidzul Quran program. The design stages are: (1) designing the 

module structure, starting from the opening, the content, and the closing parts; (2) 

determining module specifications, of which goal is to make the module more specific and 

directed when it is developed; (3) compiling assessment sheet, both for the validator team 

and student questionnaires after participating in learning using the module. The module 

development stage was carried out in three steps: (1) drafting the module according to the 

design and specifications; (2) validating the module. Three validators validated the module. 

The aspects that were validated included content, presentation, linguistics, and graphics. In 

the aspect of content, the validation was carried out by mathematicians to assess the accuracy 

of the materials; also, by Tahfidz experts to assess the accuracy of the verses and suitability 

for students.; (3) the revision phase was carried out to improve the module based on the 

validator's suggestions.  

Validity testing of the module used a questionnaire with an assessment of 5 scales. 1 

= poor; 2 = fair; 3 = good; 4 = very good; 5 = excellent. The score obtained from the validator 

in each aspect was then calculated. The percentage of eligibility was estimated using the 

following formula (Diana et al., 2018a): 

𝑃 =
𝑠𝑐𝑜𝑟𝑒

𝑡ℎ𝑒 𝑛𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑠𝑐𝑜𝑟𝑒 𝑡𝑜𝑡𝑎𝑙
× 100% 

Where P = percentage of eligibility 

Then, the percentage results obtained from the validator were categorized into very feasible, 

feasible, quite feasible, less feasible, and very less feasible. It was indicated when the P-



116  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

value met the following criteria in sequence 𝑃 > 84%, 68% < 𝑃 ≤ 84%,  52% < 𝑃 ≤

68%, 36% < 𝑃 ≤ 52%, and 𝑃 ≤ 36%, respectively.  

Furthermore, the implementation stage was carried out to test the effectiveness of the 

module. At this stage, the implementation focused on limited trials. The limited trials were 

conducted in 7 meetings. The subjects consisted of 12 students of Year-7. Essay tests with 

four questions were given to the students in both pre-test and post-test. These tests were 

given to measure the students’ critical thinking skills. In addition, a questionnaire containing 

ten statements was also given to the students to obtain student responses towards the module. 

The obtained data were analyzed using qualitative descriptive analysis technique and 

quantitative descriptive analysis technique that described the results of students’ responses 

and the pre-test and post-test analysis. The score of the students’ Critical Thinking Ability 

referred to Haryani (2011), the results are presented in Table 1. 

Table 1. Critical Thinking Ability Scoring Table 
No.  Critical thinking 

stage 

Student response Score 

1. Interpretation Students can mention all problems 2 

Students can mention some of the problems 1 

Students cannot mention all problems 0 

2. Analysis (analysis) Students can make a solution plan by combining all 

relevant information to formulate problems and 

determine the solution method 

2 

Students can make a solution plan by combining 

some of the relevant information to formulate 

problems and determine the solution method 

1 

Students cannot make problem-solving plans 0 

3. Evaluation Students can carry out the solution plan and 

recheck the results by applying the method and 

checking the answers 

2 

Students can implement plans imperfectly in 

problem-solving 

1 

Students cannot carry out plans in problem-solving 0 

 

The average score of students' critical thinking skills was categorized based on Suarsana and 

Mahayukti (2013) guidelines in Table 2. 

Table 2. Categories of Students' Critical Thinking Ability 
Score Range Category 

𝑋𝑝 ≥ 18,0 Very high 
18.0 > 𝑋𝑝 ≥ 14,0 High  
14.0 > 𝑋𝑝 ≥ 10,0 Moderate 
10.0 > 𝑋𝑝 ≥ 6,0 Low 

6.0 > 𝑋𝑝 Very low 

 

Based on the data analysis, the module use can be said to be effective if they meet 

the following requirements: (1) The results of the student response percentage are at least in 

the good category; and (2) Students' critical thinking skills at the minimum post-test score 

are in the high category. 

The evaluation step aimed to evaluate the results of the use of the module in a limited 

test. The evaluation form results were revised after examining the results of the student 



Karim, Cholily, & Syaifuddin     117 
 

 
 

responses and the effectiveness of the developed module. The revision aimed to meet the 

needs or goals that were not achieved when the module was implemented. 

RESULTS AND DISCUSSION 

The Result of the Development Process of the Association Module with Guided Inquiry 

Approach and the Tahfidzul Quran Process 

Analysis Phase  

The needs analysis was carried out by direct observation in the Tahfidz class. Based 

on the observation, teaching and learning mathematics activities in the Tahfidz class were 

the same as activities carried out in the regular class (non-Tahfidz). Mathematics learning in 

the classroom did not involve any integration with the Tahfidz program or anything related 

to the Quran. The needs analysis was carried out by interviewing the mathematics teacher in 

the Tahfidz class. Based on this needs analysis, the development of a special module for 

students who take part in the Tahfidz program needs to supplement more interesting learning. 

It is also in accordance with the student characteristics. The next analysis activity was 

curriculum analysis. This stage was carried out by analyzing the sub materials, Core 

Competencies, and Basic Competencies in the set materials of grade 7 at the odd semester. 

Based on the analysis, there were several sub-materials in the set material, including the 

definition of a set, set notation, set members and non-members, zero and zero sets, universal 

set, set cardinality, set relations that include subsets, power sets, and two similar sets. 

The last analysis stage was the analysis of the Tahfidzul Quran program. This stage 

was carried out by conducting direct interviews with the Tahfidz teachers. Based on the 

interview result, the Quran memorization for grade-7 students started from juz 30, Surah Al-

Ikhlas. The memorization activities were carried out both inside and outside the classroom, 

four times a week, from Monday to Thursday to make deposits. The murojaah activities 

were done at the beginning of each meeting for 15 minutes together. The students’ weakness 

so far was that most of them memorized the Quran only when they were to make deposits, 

but when they were asked again several weeks later, they usually halted and even forgot the 

verses. Based on this analysis, the module on the set material was to be developed to assist 

the students' murojaah process simultaneously. 

Design Stage  

The results of structuring the module can be seen in Figure 2. 

 

 



118  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Figure 2. Module Structure Design 

 In this second stage, the module was designed and developed according to the 

previous analysis results. In this stage, the elements needed in the module, such as the 

preparation of a module map and a module framework, were also determined. The 

researchers also collected references for the content of the module and developed the 

instruments to assess the developed module. The instruments were prepared by taking into 

account the aspects of the module assessment. The instruments were a module assessment 

sheet and response questionnaires. Furthermore, the instruments were to be validated to 

obtain valid assessment instruments. 

O
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in
g
 P

a
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t

(b
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fo

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e
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Cover page

Prayer before studying

Foreword

Motivation

Core and Basic Competence

Material Concept Map

Table of Contents

Preliminary

Module description

Prerequisite materials

Instruction for use

The ultimate goal of  learning

T
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 C

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(w
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in
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Learning  materials

Problem orientation

Formulating problems

Writing a hypothesis

Gathering information

Testing  hypothesis

Drawing conclusion

Murojaah activity Murojaah activity1 s.d n

Assignment Assignment 1 s.d n

T
h

e
 c

lo
si

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 p

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Material summary Material 1 s.d n

Al Quran memorization checklist sheet

Basic competency test

Answer Key

Prayer after studying

Bibliography



Karim, Cholily, & Syaifuddin     119 
 

 
 

Development stage  

The module was developed referring to the components in the design, using 

Microsoft Office Word 2013 software and the verses of the Quran using the Quran in 

Microsoft Word software 32-3.0. After developing the module draft, it was validated by the 

validator team. The validator team consisted of a mathematics lecturer, a mathematics 

teacher, and a Tahfidz teacher. Figure 3 contains three images, namely 3 (a), (b), and (c), 

where the image/concept on the left is the initial image/concept and on the right is the revised 

image/concept. For example, Figure (a) represents changes to the incorrect representation of 

the Venn diagram, Figure (b) constitutes changes to adding facts to mathematics, and Figure 

(c) contains changes to the writing commands. 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Figure 3. Some components of the module before and after the revision 

Validation is carried out to determine whether the developed module is feasible or needs 

improvement before testing (Haryati, Hartoyo, & Nursangaji, 2019). Further, the revision 

aims to perfect the module according to suggestions and input from the validators to 

maximize the usefulness of the module for students during the learning process (Novianti, 

Hartoyo, & Nursangaji, 2021).  It is also in line with the research and development conducted 

by (Rosnanda, Sarwanto, & Aminah, 2017), who stated that the validation and revision 

(a)  (b) 

(c) 



120  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

process is critical to obtain suggestions and inputs for the module development, especially 

in the aspects of the material module design and language use.  

Implementation Stage 

The module implementation through limited trials was carried out in one week (7-

days-of-learning). The limited online trials generally started by distributing the module 

relevant to the material five minutes before the learning activity began through the 

WhatsApp group. The learning activity took place for 2 × 40 minutes, or 80 minutes. The 

learning activity was conducted using Google Meet with greeting, a brief explanation of the 

learning objectives, and student motivation. The core learning then followed it following the 

steps of the guided inquiry approach in the module. Next, it continued with the test to check 

the students’ conceptual understanding and murojaah (repeat memorization) test of the 

Quran together. Finally, reflection and closing were carried out at the end of the class. After 

the learning activities were completed in 7 days, each student was given a questionnaire and 

post-test questions. The questionnaire contained the assessment of the learning effectiveness 

using the module. The result of this implementation phase was a questionnaire filled out by 

the students. The student questionnaire and post-test (see the results in Table 4 and Table 5) 

were then analyzed as the input for the module revision. 

Evaluation Phase 

The activity carried out at this stage was revising the final module. The revision 

referred to the student questionnaire and post-test results, and the module did not require 

revision. Thus, it can be used as a learning resource for SMP / MTs (Islamic Junior High 

School) students of the tahfidz program in the set material for Year-7. The results of the 

questionnaire showed that the students enjoyed using the module with very good student 

responses. Besides, the students also experienced some improvements in their critical 

thinking abilities as measured by their post-tests. 

Results of the Quality Assessment of the Association Module with Guided Inquiry 

Approach and the Tahfidzul Quran Process 

The results of the assessment of each aspect are shown in Table 3. 

Table 3. Results of Module Validation on Each Aspect by the Validator 
Aspect Score Obtained Expected Score Percentage of 

Eligibility (P) 

Category 

Contents 52 60 87% Feasible 

Presentation 76 90 84% Very Feasible 
Language 81 105 77% Very Feasible 

Graphics 122 135 90% Feasible 

Tahfidz 63 75 84% Very Feasible 

 



Karim, Cholily, & Syaifuddin     121 
 

 
 

Based on the table above, the average aspect assessment in the module is in the 

feasible category. It shows that the module with a guided inquiry approach and the process 

of Tahfidzul Quran can be used as teaching materials for learning mathematics. 

The Result of the Effectiveness Assessment of Using the Association Module with Guided 

Inquiry Approach and the Tahfidzul Quran Process to Improve Students' Critical 

Thinking 

The effectiveness of using the module can be determined through a limited trial of 

12 students in the high, medium, and low categories. The data were obtained through a 

questionnaire and the results of the students' pre-test and post-test. The results of the student 

questionnaire are presented in Table 4. 

Table 4. Student Response Results after Using Modules 
 

Indicator 

Total score 

obtained 
The learning module is designed attractively 28 

The size and font of the learning module make it easy to read 30 

The language used in the module is easy to understand 25 

The text of the Koran provided is easy to read 29 

The learning module makes learning sets easier  23 

The learning module helps in memorizing the Koran in some of the letters chapters 30 30 

The learning module increases the enthusiasm for learning mathematics 23 

The learning module enhances critical thinking  24 

The learning module makes learning mathematics more fun 27 

The learning module is suitable if it is used for tahfidz students 30 

Total number 269 

Percentage 90% 

 

Based on the table above, it can be identified that the student's responses to the 

questionnaire after being calculated showed a percentage of 90%. It proves that the module 

has a very good response rate, and it means that students were happy and interested in the 

development of the module and showed a positive influence on the learning process. 

Furthermore, the average score of students' critical thinking skills at the pre-test and post-

test can be examined in Table 5. 

Table 5. Students' Critical Thinking Ability Results 
Data size Pre-test Post-test 
Average Score 13.9 18.9 

Category Moderate Very high 

Maximum Score 20 24 

Minimum Score 7 12 

Ideal Maximum Score 24 24 

 

Based on the table above, the students' post-test scores are in a very high category. 

Consequently, after adjusting the results of the students’ questionnaires as well as the pre-

test and post-test with the requirements of the effectiveness of using the module, it can be 

argued that the use of a set module with a guided inquiry approach and the process of 

Tahfidzul Quran effectively improves the students' critical thinking.  



122  KALAMATIKA, Volume 6, No. 2, November 2021, pages 111-126 

 

CONCLUSION  

It can be concluded that the development of a set module with a guided inquiry and 

Tahfidzul Quran to improve students' critical thinking has been carried out according to the 

target (fulfilling the rules of process, the quality, and the effectiveness). It can be seen from 

the following aspects: The development of a set module with a guided inquiry approach and 

the Tahfidzul Quran process refers to the ADDIE development model with the following 

steps: Analysis; Design; Development; Implementation carried out by focusing on the 

limited trial stage; and Evaluation. The set module with the guided inquiry approach and the 

Tahfidzul Quran process in this research and development has fulfilled the quality of use as 

the learning module is based on content, presentation, language, graphics, and tahfidz. The 

minimum eligibility percentage was obtained by 77% with a decent category and a maximum 

of 90% with a very worthy category. The use of a set module with a guided inquiry approach 

and the Tahfidzul Quran process is declared to be effective in improving students' critical 

thinking. The students’ responses have reached the very-good category, and the measured 

abilities have reached at least the high category. 

ACKNOWLEDGMENT 

We would like to thank the Ministry of Research and Technology, the Indonesian 

National Research and Innovation Agency, for providing research funding in the 2020 fiscal 

year, the contract number: E.5.c/077/DPPIWPNL/IIU2020. Hopefully, these research 

results can contribute to learning innovation in Indonesia. 

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