P-ISSN 2527-5615 

E-ISSN 2527-5607 

 

KALAMATIKA Jurnal Pendidikan Matematika 

Volume 8, No. 1, April 2023, Pages 27-48 

                                                                             
 

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27 

 

DEVELOPMENT OF LEARNING INSTRUMENTS BASED ON RME 

MODELS TO IMPROVE STUDENTS’ MATHEMATICAL LITERACY 

AND LEARNING INTEREST 

Nazri Maulana Khani Selian1, Mulyono Mulyono2, Mariani Mariani3  

1Medan State University, Willem Iskandar Pasar V. 20221. Medan. Indonesia 

maulananazri21@gmail.com 
2Medan State University, Willem Iskandar Pasar V. 20221. Medan. Indonesia 

mulyono_mat@yahoo.com 
3Medan State University, Willem Iskandar Pasar V. 20221. Medan. Indonesia 

marianisihombing57@gmail.com 

  

ABSTRACT 

This study employed GeoGebra to develop interactive learning instruments for SLETV content, using the 4-D 

Thiagaradjan model as the framework, involving four phases: define, design, develop, and disseminate. The 

investigation included two eighth-grade math teachers and fourteen-year-old eighth-graders, and observational 

data were collected through needs analysis, interviews, and questionnaires. The data collection comprised need 

analysis, interviews, and surveys. Before trial implementation, three crucial development requirements had to be 

met: validity, practicality, and efficacy. The validation of learning instrument formats, illustrations, language, 

and content showed valid. The research findings indicate that the developed learning instruments were effective, 

with an average student score of 74.3 on the pretest and 87 on the posttest (meeting the minimum criteria of 

mastery learning). Teacher's ability to manage learning was rated as very good, with an average score of 4.4. The 

observation of learning implementation showed an average score of 4.4 in the very good category (practical). The 

learning instruments based on RME can be used to enhance students' mathematical literacy and learning interest.  

ARTICLE INFORMATION 

Keywords  Article History 

Realistic Mathematics Education (RME) 

Mathematical Literacy 

Interest in Learning 
 

Submitted Feb 27, 2023 

Revised Apr 4, 2023 

Accepted Apr 15, 2023 

Corresponding Author 

Mulyono 

Medan State University 

Willem Iskandar Pasar. V 20221. Medan. Indonesia 
E-mail: mulyono_mat@yahoo.com 

How to Cite 

Selian, N.M.K., Mulyono, M., & Mariani, M. (2023). Development of Learning Instruments Based on Realistic 

Mathematics Education to Improve Students’ Mathematical Literacy and Learning Interest. Kalamatika: Jurnal 

Pendidikan Matematika, 8(1), 27-48. 

https://doi.org/10.22236/KALAMATIKA.vol8no1.2023pp27-48  

http://creativecommons.org/licenses/by-sa/4.0/
http://creativecommons.org/licenses/by-sa/4.0/
http://creativecommons.org/licenses/by-sa/4.0/
mailto:mulyono_mat@yahoo.com


Selian, Mulyono, & Mariani     28 

 

 
 

INTRODUCTION 

The field of education is rapidly evolving, particularly in the age of science and infor-

mation technology. Education is a deliberate endeavor that involves guiding, teaching, and train-

ing students to prepare them for their future roles. It is a structured process aimed at achieving 

successful learning outcomes regarding personality, character, and morals while also nurturing 

individuals who can contribute meaningfully to their nation and state. 

Mathematics is one of the subjects studied by students at school. Mathematics is an 

important subject in education because it is taught at all levels of education, from Elementary 

School to higher education. This can be seen from the number of hours studied for mathematics 

which is more than the number of hours studied for other subjects at school. Nasution et al. 

(2017) argued that mathematics is an area of knowledge studied by all students from elementary 

school to high school and the equivalent in tertiary institutions. This concludes that mathematics 

is a very important science because it acts as a basis for advancing science and technology in 

other fields. As a result, mathematics received the title "Queen of Knowledge." 

Mathematics education itself has a vital part in one's life. Students are instructed to think 

rationally, critically, methodically, practically, creatively, effectively, and efficiently when 

solving issues by learning mathematics. Students must have high-level mathematical thinking 

skills to comprehend a mathematical problem. These abilities include the ability of mathematical 

literacy. 

Literacy ability, Hasanah (2015) claimed that mathematical literacy is the ability to use 

contexts, including the ability to reason mathematically and use concepts, procedures, and facts 

to describe, explain, and forecast an event. 

Having good literacy skills will facilitate students in solving math problems. Thus 

activating mathematical literacy is very important to solve problems encountered in everyday 

life (Mansur,  2018) 

However, the ability of students' mathematical literacy in Indonesia is still not good; this 

can be seen from international comparative studies, such as PISA (Program for International 

Student Assessment). The results of the 2018 PISA put Indonesia in the bottom ten of the 79 

participating countries. The average reading ability of Indonesian students is 80 points lower 

than the OECD average. The ability of Indonesian students is still lower than ASEAN students. 

Indonesian students' average reading, math, and science abilities are 42, 52, and 37 points lower 



29 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

than the average ASEAN students (Pusat Penilaian Pendidikan Balitbang Kemendikbud, 2019). 

In addition to this, facts were also found in the school studied, a Year 8 class in a private 

junior high school in Medan, Indonesia. From the results of the researchers' observations on 

June 15, 2022, to find out how students' mathematical literacy skills at the school studied were, 

the researchers gave a diagnostic test to Year 8 students; from the test results, it was seen that 

students did not use literacy skills so they were unable to write down things they knew and what 

was asked. This was marked by the answers of students who did not write down things that were 

unknown and asked. Besides that, students are not able to solve the questions given. So this 

shows that the ability of students' mathematical literacy is low. This can be seen from the low 

test results of students who only achieved an average score of 65, while the standard value of 

the Minimum Criteria of Mastery Learning (KKM) was 75. 

The following is one of the questions given to see students' mathematical literacy skills: A 

woman goes to a clothing store. Then he bought two shirts and three pairs of jeans for IDR 340,000. Then 

he bought another shirt and two pairs of jeans for Rp. 210,000. Then how much is the price of a shirt and a 

pair of jeans? 

 
 

 
 

 

 

 

 

 

 

 

 

 

    Figure 1. Student Answers 
 

In addition to the importance of students' mathematical literacy skills, another thing that 

is considered important is students' attitudes toward learning mathematics, one of which is 

student learning interest. This literacy ability is also directly related to students' moral 

responsibility in increasing student interest in learning. Interest is a factor that has an important 

role in literacy skills because high student interest also supports the enthusiasm of these students 

in learning more in a lesson. Interest in learning is a psychological aspect that significantly 

influences student success in completing assignments and questions well. 

Interest is a state in which a person gives attention to something with the desire to know, 

own, learn, and prove it. Interest is formed by the environment after learning about an object or 

Students cannot yet write down 

what is known and ask the 

question. 

Students have not been able to 

solve the given questions. Students 

have not been able to solve the 



Selian, Mulyono, & Mariani     30 

 

 
 

wall and is accompanied by feelings aimed at a specific action object (Rahmat, 2018).  

Daniyati & Sugiman (2015) also stated that interest in learning mathematics needs to be 

grown to achieve better learning achievement. To foster students' interest, they must first pay 

attention to things that can cause a reduction or loss of interest in learning. Students' perceptions 

can affect students interest in mathematics. 

Lean on on the results of initial observations at school; it was revealed that several factors 

caused low mathematical literacy abilities and low student interest in learning, including the 

teacher-centered mathematics learning process and using conventional strategies that make 

students passive. Thus, using learning instruments is one method of increasing students' 

mathematical literacy and interest in learning. 

In accordance with this, suitable learning activities, such as the use of learning 

instruments, are required to improve students' mathematical literacy skills and interest in 

learning. The importance of learning instruments in teaching and learning activities is critical. 

Learning instruments include acting as tools that can increase students' desire to learn, which 

will later be able to create an effective learning atmosphere. Because the beginning of learning 

is the desire to learn, a teacher must create something that can increase students' interest in 

learning, one of which is by developing learning instruments that are able to attract students' 

attention and desire to learn. 

The significance of instrument development was also declared by (Lubis, Wilda Indah, 

et al., 2020). Learning for a teacher in which the learning instrument serves as a guide, so the 

learning tool directs the instructor in carrying out the systematic learning process. 

Apart from that, the importance of developing learning instruments is also stated in 

Permendiknas Number 41 of 2007 concerning process standards, which, among other things, 

regulates the planning of the learning process which requires educators in educational units to 

be obliged to develop complete and systematic learning instruments so that educational goals 

can be achieved. 

Based on the results of preliminary observations conducted at one of the private junior 

high schools in Medan, Indonesia. with teachers in the field of mathematics studies, it was 

revealed that the learning instruments at the school did not match the existing criteria. The 

learning instruments include lesson plans, worksheets, student books, and assessment instruments. 

This is proven by one of the lesson plans held by the mathematics subject teacher at the school as follows. 



31 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

 

 

 

 

 

 

 

 

 

 

        Figure 2. Form of Lesson Plan 

The lesson plan still has several weaknesses, including that the lesson plan does not 

include basic competencies and indicators of competency attainment, which are part of the 

components for preparing the lesson plan based on Permendikbud Number 22 of 2016 relates 

to primary and secondary school procedure standards. As a result, the learning instruments must 

be improved. As a result, the learning objectives will be readily met. 

Developing learning instruments must be supported by learning models. Many kinds of 

learning models are currently known; therefore, an appropriate learning tool is needed to 

improve students' mathematical literacy abilities and learning interests. The role of learning 

instruments is crucial in teaching and learning activities. Learning instruments include acting as 

tools that can increase students' desire to learn, which will later be able to create an effective 

learning atmosphere. 

One of the learning models developed to improve mathematical literacy skills and 

interest in learning is the Realistic Mathematics Education (RME) learning model. Sugiarni 

(2019) suggests that learning mathematics with a realistic approach is utilizing reality and the 

environment that participants understand to expedite the process of learning mathematics so as 

to achieve the goals of mathematics education better than in the past. 

In line with that, Astuti (2018) provide an understanding of Realistic Mathematics 

Education as the use of the environmental reality that students can understand in facilitating the 

learning process so that better educational goals are achieved. RME allows students to form 

their understanding of Mathematical ideas and concepts through problems found in the real 



Selian, Mulyono, & Mariani     32 

 

 
 

world. 

Ningsih’s research (2014) also explained that the importance of the RME model is that 

students can explore their knowledge with the help of contextual objects that can stimulate 

students' thinking to imagine the problems they are experiencing so that students can also 

imagine how to solve them. 

Based on the description above, the researcher is interested in developing learning 

instruments based on realistic learning models to improve students' mathematical literacy skills 

and interest in learning. 

METHOD 

This research includes development research (R&D). This study uses the 4-D development 

model by Thiagarajan, Semmel, & Semmel (1974). This model consists of 4 stages: Define, Design, 

Develop and Disseminate. 

The stages of developing the 4-D learning instrument are detailed as follows. 

Define stage 

This stage aims to determine and define learning needs by analyzing the objectives and 

limitations of the material. Activities in this stage are the initial and final analysis, student 

analysis, task analysis, and specification of learning objectives. 

Design Stage 

This stage aims to design learning instruments so that prototypes (examples of learning 

instruments) are obtained. This stage begins after specific learning is established. This stage 

includes test preparation, instrument selection, format selection, and initial design. 

Develop stage 

At this stage, Experts will validate the instrument before it is used in field trials. Draft 1 

refers to the tools before they are verified by experts. If experts have validated these tools, and 

if there is a revision by experts, the tools must be repaired or revised before moving on to the 

next step; however, if there is no revision, it can be called draft 2. 

Dissemination Stage 

The development of student worksheets reaches the final stage if it has obtained a 

positive assessment from experts and has passed a development test. The instrument was 

designed, disseminated, and used for a wider scale. 



33 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

The development model in this study is schematically depicted in Figure 1 below: 

 

Figure 3. 4-D Model Learning Instrument Development Chart 

This research was conducted at one of the private junior high schools in Medan, 

Indonesia, which is in the odd semester of the 2022/2023 academic year. The subjects in this 

study were Year 8 students. The trial design of this study used the One Group Pretest-Posttest 

Design. The first step is to take measurements as a pretest, then subject to treatment within a 

certain period, a posttest is carried out (Lestari & Yudhanegara, 2015). 

The design of this research trial was based on the PretestPretest and Posttest Group 

research design, with the following pattern: 

 



Selian, Mulyono, & Mariani     34 

 

 
 

Table 1. Trial Design 
O1 X O2 

 

Information: 

O1 : Initial test (pretest) is done to determine learning outcomes and interest in learning 

before being given treatment 

X:  The learning treatment uses learning with the RME model that has been developed. 

O2 : The final test (posttest) was conducted to determine the learning outcomes of products, 

processes, and student performance tests on students' mathematical literacy abilities and 

interest in learning. After the posttest was carried out, a questionnaire was given to 

students' responses to learning. 

Learning instruments are assessed based on Nieven's criteria (Romlah et al., 2018). 

These criteria assess the quality of learning instruments based on three aspects, namely: (1) 

Validity; (2) Practically; and (3) Effectiveness. 

Data Analysis of the Validity of Learning Instruments 

  Content validation is based on the opinions of five experts in the field of mathematics 

education. Based on the opinions of these experts, the level of agreement between observers 

(experts) will be determined, which will be analyzed using statistical tests with the formula: 

  (Asmin, 2012) 

Analysis of Practicality of Learning Instruments Data 

Data collection for implementing learning using the developed tools is carried out per 

meeting by an observer. The activity of determining the learning implementation observation 

score follows the following steps: 

Determine the average score of observation of the implementation of learning at each meeting 

with the formula: 

 
(Sinaga, 2007) 

With := an average score of observation of learning implementation in each meeting

  

 = data on the observation score of the implementation of learning on the third 

statement i 

 = the number of statements 



35 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

Determining the average score of observation of the implementation of learning: 

(Sinaga, 2007) 

with: = average score of observation of learning implementation  

 = average score of observation of learning implementation in each meeting 

 = the number of meetings 

The results obtained are then written in the column in the appropriate table. 

After the data is collected, the average total score is determined from the observation of 

the implementation of learning ( ) with categories like Table 3.14. 

The developed learning instrument is said to be practical if the average learning implementation 

is at least in the 'well implemented' category ( ). 

Data Analysis of the Effectiveness of Learning Instruments 

  Data analysis of the effectiveness of student learning instruments can be seen from the 

following various aspects: 

Analysis of Student Completeness Data 

The criterion states that students already have students' Mathematical Literacy abilities 

if there are 80% of students who take the test have at least medium students' Mathematical 

Literacy abilities (obtaining a score of more than one is equal to 2.85 or at least (B). To 

determine the percentage of each student's learning, students can use the following equation: 

 

Where: KB = Mastery learning   

  T  = Total score obtained by students  

   = Sum of total scores 

Observation Analysis of Student Activities in Learning 

Data from observations of student activities during learning activities were analyzed 

based on percentages. 

Percentage of ideal time =
Frequency of each aspect of observation

Sum of frequencies of all observation aspects
× 100% 

The criterion for achieving the effectiveness of student activities in learning is if the six 

categories of student activities are met with a tolerance of 5%. 

Data Analysis of Teachers' Ability to Manage Learning 



Selian, Mulyono, & Mariani     36 

 

 
 

Based on observations made by observers in the implementation of learning, the 

Teacher's ability to manage the learning process is determined by the average score given by 

the observer using the rating scale as follows: 

a) Determine the average observation score of the Teacher's ability to learn each meeting with 

the formula: 

(adaptation Sinaga, 2007) 

With :      = the average score of observations of the Teacher's ability at each meeting 

= data on the Teacher's ability observation score for the i-th statement 

= the number of statements 

The results obtained are then written in the column in the appropriate table. 

b) Determining the average observation score of the Teacher's ability in learning: 

(adaptation Sinaga, 2007) 

With :     = average score of observations of student activity in learning 

= average score of student activity observations in learning each meeting 

= the number of meetings 

Analysis of Teacher and Student Response Data 

Data from student response questionnaires were analyzed using descriptive qualitative 

by presenting positive and negative responses of students in filling out student response 

questionnaires calculated by the formula: 

 

Note: PRS = the percentage of students who gave a positive response 

= the proportion of students who choose 

= number of students (respondents) 

To determine the achievement of learning objectives in terms of student responses, if 

the number of students who give positive responses is greater than or equal to 80% of the number 

of subjects studied for each Trial. 

RESULTS AND DISCUSSION 

This research is development research, and the product of this research is learning 

instruments. This study aimed to describe: (1) obtain learning instruments developed based on 



37 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

a Realistic Mathematics Education (RME) approach that is valid, practical, and effective for 

improving mathematical literacy skills in the school studied; (2) describe how the improvement 

of students' mathematical literacy skills at the school studied is taught with learning instruments 

developed based on Realistic Mathematics Education (RME) approach. Data analysis and 

research results obtained at each stage of development are presented as follows: 

Define 

The results of observation and analysis of learning instruments at the school studied 

showed that teachers have not had learning instruments that can improve Mathematical Literacy 

skills. In addition, in the learning process, students are not involved in finding their knowledge 

but are directly given by the Teacher. This is thought to be the cause of students' mathematical 

literacy skills that are still not good. 

Design 

This stage aims to design learning instruments to obtain prototypes (examples of learning 

instruments) for SLETV material. Activities at this stage are as follows: 

Test Compilation Results 

The result of the pretest arrangement is the task analysis and concept analysis described in 

the specification of learning objectives. The test is a test on SLETV material and a student 

questionnaire. The learning outcomes test consists of 5 questions in the form of descriptions. 

The time allotted to complete the test is 60 minutes. 

Format Selection Results 

The results of the format selection in the study were adjusted to the 2013 curriculum. The 

lesson plan components consist of School identity, namely the name of the educational unit; 

Subject identity or theme or sub-theme; Class or semester; Subject matter; Allocation of time; 

learning objectives that are formulated are determined according to the requirements for 

achieving KD available in the syllabus, the learning method used by researchers is Realistic 

Mathematics Education (RME); Learning resources, can be in the form of books, learning 

videos, print, and electronic instruments or other relevant learning resources; Learning steps are 

carried out through the preliminary, core, and closing stages; and assessment of learning 

outcomes. 

Preliminary Design Results 

From the initial design stage, a learning implementation plan was produced for two meetings 



Selian, Mulyono, & Mariani     38 

 

 
 

on field trials and student learning outcomes tests. 

Develop 

Initial Draft  

The results are validated by experts. Expert validation was carried out, covering all the instruments 

developed. The validators who validated the learning instruments developed (Initial Draft) consisted 

of 5 people, including 3 UNIMED mathematics education lecturers, one Teacher from the school 

studied, and one Teacher from another junior high school in Medan. Based on the results of validation 

calculations of 5 experts in the initial test of student learning outcomes contained in the appendix. The 

average value of the score is 3.71. Referring to the validity criteria, it can be concluded that the learning 

instrument instruments developed meet the validity criteria, with the "Valid" category further can 

be seen in the following table: 

Table 2. Recapitulation of Learning Instrument Validation Results by Experts 

No Appraised object 
The average value of the total 

validation 

Validation Level 

1.  Lesson Plan 3.59 Valid 
2.  Student Book 3.71 Valid 
3.  Student Worksheets 3.65 Valid 
4.  Mathematical Literacy Test 3.83 Valid 
5.  Student Learning Interest Ability Test 3.81 Valid 

 

With reference to these criteria, it can be concluded that the learning instruments 

developed meet the validity criteria with a valid category. The validity of the questions was 

analyzed using the product moment correlation formula, namely by correlating the item score 

with the total score. The results of testing the spatial ability test instrument are presented in the 

following table: 

Table 3. Pretest-Pretest Item Validity 

No.  𝑟𝑥𝑦 𝑟𝑡𝑎𝑏𝑒𝑙 Interpretation  

1 0.5102 0.4440 Valid 

2 0.4831 0.4440 Valid 

3 0.5222 0.4440 Valid 

4 0.4982 0.4440 Valid 

5 0.4748 0.4440 Valid 

 
Table 4. Post-test Item Validity 

No.  𝑟𝑥𝑦 𝑟𝑡𝑎𝑏𝑒𝑙 Interpretation  

1 0.5326 0.4440 Valid 

2 0.5706 0.4440 Valid 

3 0.5620 0.4440 Valid 

4 0.5930 0.4440 Valid 

5 0.5620 0.4440 Valid 

 

Based on the data in the table above, the interpretation of each pretest and posttest 



39 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

item is in a very valid category. 

After the developed learning instrument meets the validity criteria (draft 1), then the 

learning instrument in the form of draft two is tested at the research location, hereinafter 

referred to as Trial I. Trial I was conducted in a Year 8 class with a total of 20 students. Trial I 

was conducted in 2 meetings in accordance with the lesson plan that had been designed. 

Overall, the results of the data analysis of Trial I show that the learning instruments 

developed have not met all the established success criteria because there are still indicators of 

practicality and effectiveness that have not been achieved, namely the results of observations 

of the implementation of learning and the results of the final test of students' mathematical 

literacy abilities in the Trial. I. After the results of Trial one were obtained, an evaluation phase 

was carried out where the researcher revised the learning instruments and/or the instruments 

developed. The following will explain each component that needs to be revised. 

From the analysis of the results of Trial I, the researcher found several weaknesses 

that must be corrected so that this research can produce learning instruments and instruments 

that meet all valid, practical, and effective criteria. After the revision was completed, Trial II 

used the learning instrument (draft 2), and the instrument was carried out in the same class as 

well. Trial II was conducted to measure whether the learning instruments and equipment met 

all the established valid, practical, and effective criteria. Overall, the results of the second trial 

data analysis show that the learning instruments developed have fulfilled all the established 

valid, practical, and effective criteria. A more complete explanation can be seen in the 

description section on the validity, practicality, and effectiveness of learning instruments. 

Disseminate 

After the valid, practical, and effective criteria have been met in Trial II, a learning tool (final 

draft) is obtained. The next step is to carry out limited dissemination in the form of distributing 

the final draft to the MGMP forum in the school studied, which is marked by the delivery of learning 

instruments to the MGMP forum with the hope that the mathematics teachers who are members 

of the forum can apply these learning instruments to further learning. 

Description of the Validity of Mathematics Learning Instruments  

A learning instrument is said to be valid if the expert/practitioner's assessment of the 

developed learning instrument meets the valid criteria. Analysis of the validity of the 

developed learning instruments in terms of expert judgment regarding these learning 



Selian, Mulyono, & Mariani     40 

 

 
 

instruments. The assessment of the experts has been previously explained at the development 

stage regarding the validation results of the validators, where the results show that the learning 

instruments developed are stated to be valid with an average value of 3.71 (category "valid"). 

Based on this analysis, it can be said that the learning instruments developed are valid and 

ready to be used in learning. 

Description of the Practicality of the Developed Mathematical Learning Instruments 

In the Trial, I based on the practicality analysis results obtained from the responses 

given to experts/validators and practitioners (teachers) as well as by providing instrument 

validation sheets. Thus, the first practicality criterion has been met; namely, it can be used 

with a little revision. 

The observation of the implementation of learning with learning instruments 

developed is in the "High" category, with a score of 3.4. That is the average score. The learning 

instruments developed in Trial I have met the practicality criteria of learning instruments that 

were set so that they can proceed to the next stage. 

Description of the Effectiveness of Mathematics Learning Instruments Developed 

The developed learning instrument is said to be effective if: (1) the minimum test score 

for mathematical literacy is 70 (the "good" category) and classically at least 80% of students 

fulfill the learning completeness; (2) the Teacher's ability to manage to learn by using learning 

instruments developed with a good minimum category;(3) the average results of the ideal time for 

student activities meet the set ideal percentage of time; (4) the average student response is in the 

minimal category“Interested” (3 ≤ Rs < 4). 

Analysis of Students' Mathematical Literacy Ability Test Results 

The results of classical mastery of students' mathematical literacy skills in Trial I can 

be seen in the following table: 

Table 5. Levels of Mathematical Literacy in Trial I 

Category  Mathematical Literacy Student (Post-test) 

The number of 

student 

Precentage  

Meeting KKM 6 30% 

Not Meeting KKM 14 70% 

Total  20 100% 

 

In accordance with the criteria of classical student learning completeness, namely, at 

least 30% of students who take the mathematical literacy ability test are able to achieve a 



41 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

minimum score of 70. So the results of the student's mathematical literacy ability test have not 

been completed classically because only 30% of students are able to achieve a minimum score. 

So it can be concluded that in Trial I, the application of the learning instruments developed 

did not meet the criteria for achieving classical mastery. The results of classical mastery of 

students' mathematical literacy skills in Trial II can be seen in the following table: 

Table 6. Levels of Mathematical Literacy in Trial II 
 

Category  Students’ Visual Thinking  (Post-test) 

The number of  Precentage  

Complete 17 85% 

Not Complete 3 15% 

Amount 16 100% 

 

In accordance with the criteria of classical student learning completeness, namely, at 

least 80% of students who take the mathematical literacy ability test are able to achieve a 

minimum score of 70. Then the results of the student's mathematical literacy ability test have 

been met the classical mastery because there are 87.5% of students were able to achieve a 

minimum score. So it can be concluded that in Trial II, the application of the learning 

instruments developed met the criteria for achieving classical mastery. 

Results Analysis Teacher Ability to Manage Learning 

Teacher observation in managing learning is carried out in every meeting observed by 

one observer. The following are teacher observation data managing learning: 

Table 7. Mean Assessment of Teacher Ability to Manage Learning in Trial I 

No. Aspect Activity 

Average Observer 

Score 

Average 

Value 

I Aspect 

1. Introduction 

Say greetings 4,7 

4,4 Motivate students to learn 4,3 

Communicating learning objectives 4,3 

2. Core activities 

Problem orientation 3,3 
 

 

 

3,6 

Organizing students to study 3,6 

Guiding individual and group investigations 4,3 

Develop and present the work 3,3 

Analyze and evaluate the problem-solving process 3,6 

3. Closing 
Reaffirms the conclusion of the material 3,6 

3,8 
Give some questions as independent assignments 4 

4. Learning Time Management 3,6 3,6 

5. Class situation 
Enthusiastic students take part in learning 3,3 

3,4 
Enthusiastic teachers manage to learn 3,6 

Average Value 3,7 

 
Table 8. Mean Assessment of Teacher Ability to Manage Learning in Trial II 

No. Aspect Activity 

Average 

Observer 

Score 

Average 

Value 

I Aspect 
1. Introduction Say greetings 5  



Selian, Mulyono, & Mariani     42 

 

 
 

No. Aspect Activity 

Average 

Observer 

Score 

Average 

Value 

I Aspect 
Motivate students to learn 5  

4,6 Communicating learning objectives 4 

2. Core activities 

Problem orientation 5 

4,1 

Organizing students to study 3,6 

Guiding individual and group investigations 4,3 

Develop and present the work 4 

Analyze and evaluate the problem-solving process 4 

3. Closing 
Reaffirms the conclusion of the material 4,3 

4,3 
Give some questions as independent assignments 4,3 

4. Learning Time Management 4,1 4,1 

5. Class situation 
Enthusiastic students take part in learning 4 

4 
Enthusiastic teachers manage to learn 4 

 

Analysis of the Percentage of Achievement Results of Student Activity Ideal Time 

The following briefly describes the percentage of achieving the ideal time for student 

activities. 

Table 9. Results of Percentage Analysis of Achievement of Ideal Time for Student Activities in Trial I 

Meeting 

Percentage of Achievement of Ideal Activity Time 

Students Each Aspect of Observation (%) 

1 2 3 4 5 6 

I  25.00 29,2 26,4 8.33 5.56 5.56 

II  23,6 29,2 25 12.5 6,94 1.39 

Average 

Percentage 

 24,3 29,2 25,7 10,42 6,25 3.48 

 
 

Based on the analysis results in Table 8, the average percentage of achieving the ideal time for 

student activities for two meetings in Trial I was 24.3%, 29.2%, 25.7%, 10.42%, 6.25%, and 3.48%. 

Furthermore, the results of achieving the time obtained are referred to as the predetermined success 

criteria. From the results above, it can be concluded that student activity has reached the ideal time 

achievement percentage, whereas, from the six observed aspects, the student activity percentage is still 

within the specified ideal time achievement tolerance interval. 

Table 10. Results of Percentage Analysis of Achievement of Ideal Time for Student Activities in Trial II 

 

Meeting 

Percentage of Achievement of Ideal Activity Time 

Students Each Aspect of Observation (%) 

1 2 3 4 5 6 

I 20,8 27,8 25 15.3 8.33 2.78 

II 23,6 26.4 27,8 12.5 6,94 2.78 

III 22,2 26,4 27,8 13,9 8.33 1.39 

Average Percentage 22,2 26,87 26,87 13,9 7,87 2,32 

 

Based on the analysis results in Table 9, the average percentage of achieving the ideal 

time for student activities for the three meetings in Trial II was 22.2%, 26.87%, 26.87%, 



43 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

13.9%, 7.87%, and 2.32%. Furthermore, the results of achieving the time obtained are referred 

to as the predetermined success criteria. From the results above, it can be concluded that 

student activity has reached the ideal time achievement percentage. 

Response Student Trial 
 

Student response questionnaires were given to the respondents at the end of the Trial. 

The description of the results of the student response questionnaire can be seen in the Table 

11. 

Table 11. Description of Student Response Questionnaire Results in Trial I 

No Responded aspect 
Frequency Percentage 

Like No Like No 
1 Do you feel happy or not about the following learning 

components? 

a. Subject matter 
b. Instructional Media 
c. Student Worksheets 
d. Classroom learning atmosphere 
e. The way the Teacher teaches 

 

 

12 

13 

12 

11 

12 

 

 

8 

7 

8 

9 

8 

 

 

60 % 

65 % 

60 % 

55 % 

60 % 

 

 

40 % 

35 % 

40 % 

       45% 

40 % 

  New No New No 

2 Are the following learning components new to you or not? 

a. Subject matter 
b. Instructional Media 
c. Student Worksheets 
d. Classroom learning atmosphere 
e. The way the Teacher teaches 

 

 

13 

13 

12 

11 

12 

 

 

7 

7 

8 

9 

8 

 

 

65% 

65% 

60% 

55% 

60% 

 

 

35% 

35% 

40% 

45% 

40% 

  Interested No Interested No 

3 Are you interested or not taking part in the next lesson, like 

the one you just took? 14 6 70% 30% 

  Clear No Clear No 

4 Can you clearly understand or not the language used in: 

a. Instructional Media 
b. Student Worksheets 
c. Student Learning Outcomes Test 

 

 

 

12 

11 

13 

 

 

 

8 

9 

7 

 

 

 

60% 

55% 

65% 

 

 

 

40% 

45% 

35% 

  Interested No Interested No 

5 Are you interested or not with the appearance (writing, 

illustrations/pictures, and image placement) contained in: 

a. Instructional Media 
b. Student Worksheets 

 

 

 

13 

12 

 

 

 

7 

8 

 

 

 

65% 

60% 

 

 

 

35% 

40% 

 

Table 10 in Trial I shows student responses to all aspects, especially to learning instruments, 

namely student opinions on learning components consisting of student books, student worksheets, and 

student learning achievement tests, reached 61.3%.  

Table 12. Description of Student Response Questionnaire Results in Trial II 
 

No Responded aspect 
Frequency Percentage 

Like No Like No 
1 Do you feel happy or not about the following learning 

components? 

a. Subject matter 

 

 

16 

 

 

4 

 

 

80% 

 

 

20 % 



Selian, Mulyono, & Mariani     44 

 

 
 

No Responded aspect 
Frequency Percentage 

Like No Like No 
b. Instructional Media 
c. Student Worksheets 
d. Classroom learning atmosphere 
e. The way the Teacher teaches 

20 

17 

17 

18 

0 

3 

3 

2 

100 % 

85 % 

85 % 

90% 

0 

15 % 

15% 

10% 

  New No New No 

2 Are the following learning components new to you or not? 

a. Subject matter 
b. Instructional Media 
c. Student Worksheets 
d. Classroom learning atmosphere 
e. The way the Teacher teaches 

 

 

16 

17 

18 

15 

16 

 

 

4 

3 

2 

5 

4 

 

 

80% 

85% 

90% 

75% 

80% 

 

 

20% 

15% 

10% 

25% 

20% 

  Interested No Interested No 

3 Are you interested or not taking part in the next lesson, like 

the one you just took? 18 2 90% 10% 

  Clear No Clear No 

4 Can you clearly understand or not the language used in: 

a. Instructional Media 
b. Student Worksheets 
c. Student Learning Outcomes Test 

 

 

 

16 

17 

15 

 

 

 

4 

3 

5 

 

 

 

80% 

85% 

75% 

 

 

 

20% 

15% 

25% 

  Interested No Interested No 

5 Are you interested or not with the appearance (writing, 

illustrations/pictures, and image placement) contained in: 

a. Instructional Media 
b. Student Worksheets 

 

 

 

20 

19 

 

 

 

0 

1 

 

 

 

100% 

95% 

 

 

 

0 

5% 

 

Based on Table 11 in Trial I, it can be analyzed that student responses to all aspects of the 

learning instruments, namely student opinions on learning components consisting of student 

books, student worksheets, and test, were 86%, so it can be seen that the average -the average 

student response questionnaire score is in the "Interested" category. 

Description of Students Interest Questionnaire Results 

In this study, the distribution of questionnaires for students' interest in learning 

mathematics was carried out after learning. The questionnaire was given as many as 30 

statement items consisting of 22 positive statements and eight negative statements from 3 

indicators of student interest in learning. The description of the results of students' interest in 

learning in Trial I is shown in the following table. 

Table 13. Description of the Results of Student Learning Interest in Trial I 

Description Results of Learning 

Motivation 

Average 

The highest score 88.33 
73.75 

Lowest Value 66.67 

 



45 KALAMATIKA, Volume 8, No. 1, April 2023, pages 27-48 

 

Table 9 shows that the average student interest in learning is 73.75, with the highest 

score of 88.33 and the lowest score of 66.67. 

 
 
 

Table 14. Description of the Results of Student Interests in Trial II 
Description Results of Learning 

Motivation 

Average 

The Highest Score 90.00 
 

8

1

.

7

1 

The Lowest Score 76,67 

 

Table 10. demonstrates that the average student interest in learning is 81.05, with the 

highest score of 90.00 and the lowest score of 76.67.  

Improving Mathematical Literacy Ability Using Developed Mathematical Learning 

Instruments 

The results of the analysis of students' mathematical literacy skills tests in trials I and 

II showed an increase in students' mathematical literacy skills. Based on the average 

normalized gain, it was found that in Trial I, there was an increase in students' mathematical 

literacy skills with the "low" criterion with an average score of 0.27 (N-gain <0.3), and in Trial 

II, there was an increase in value with criteria of "moderate" with a score of 0.5 (0.3 < N-gain 

< 0.7). So it can be concluded that the developed learning instruments can improve students' 

mathematical literacy skills. 

Increasing Students' Interest in Learning Mathematics Using Learning Instruments 

Developed Mathematics 

 
Based on the results of data analysis of students' interest in learning mathematics in 

trials I and II showed that students' interest in learning mathematics increased (better). The 

increase in students' motivation to learn mathematics was seen from the average results of the 

interest in learning mathematics questionnaire in Trial I, the average student interest in 

learning was 73.54, while in Trial II, the average student interest in learning increased to 

81.71. There was an increase of 8.17 from Trial I to II in the average results of students' interest 

in learning mathematics. Based on these results, it can be concluded that the student's interest 

in learning mathematics after using the mathematics learning instruments based on the 



Selian, Mulyono, & Mariani     46 

 

 
 

Realistic Mathematics Education learning model, which was developed as a whole, increased 

from Trial I to II.  

CONCLUSION 

This research developed learning instruments based on the RME approach that could be 

used to improve students' mathematical literacy and learning motivation. The 4-D Thiagaradjan 

model is used as the model. There are four stages involved: define, design, produce, and 

disseminate. Three stages of data gathering were used, namely observation in the form of needs 

analysis, interviews, and questionnaires. This study concluded that the development 

requirements of validity, practicability, and practicability have been fulfilled.  

ACKNOWLEDGMENTS 

In this space, the authors want to express my deepest sincere thanks and biggest tribute to 

all those who have helped the author to finish this. First, to Dr. Mulyono, M.Si as the first 

supervisor and Head of the Mathematics Education Study Program; Dr. Mariani, M. Pd as the 

second supervisor; Mr. Mangaratua M. Simanjorang, M.Pd., Ph.D. as Secretary of the 

Mathematics Education Study Program, the principal and teachers and administrative staff of the 

school studied, and my family namely my brothers especially my mother and father. 

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