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Mathematics Education Journals 

Vol 3  No. 1 February 2019 

 

The Analysis of Students’ Mathematical Reasoning Ability in Completing 

Mathematicalproblems on Geometry 
 

Widya Rizkha Sandy, Siti Inganah, Anis Farida Jamil  
 

Study Program of Mathematics Education 

Faculty of Teacher Training and Education, 
University of Muhammadiyah Malang  

riska.s199@gmail.com 

 

Abstract 

This study aimed to describe the level of students' reasoning ability to solve the problems 

on flat sides of Geometry with the level of mathematical reasoning ability of high, moderate 

and low. The types and the research approaches used were descriptive qualitative and 

quantitative research design. The research subjectswere 6 students from class VIIIF. The 

form of data collection included 4 items ofwritten questions test and interview on the 

subject selected. Based on the analysis, the average value of the entire instrument about the 

mathematical reasoning abilities gained 71.5% for the indicators that carried out the 

calculations based on mathematical formulas or rules applicable. While 73.33% and 71.5% 

for the indicator of conclusions and 66.67% for the indicator ofestimation, that ifsummedup 

and averaged the percentage was 69%. The ability of class VIIIF students’ mathematical 

reasoning was fair. 

Keywords: Mathematical Reasoning, Problem solving, Geometry.  
 

 

INTRODUCTION 

Education is a major pioneer in improving the quality of human resources. Education is 

the way to form of people ability to use rational response in dealing with the problems that arise 

in the quest for a better future. Mathematics as a subject in school is considered very important 

role since it can enhance students' knowledge of mathematics in logical thinking, rational, 

critical, accurate, effective, and efficient. Mathematical knowledge must be mastered by the 

students as early as possible. Mathematics is used as the basic of all lesson studies. Hence, it 

needs to be given to all students at every level of education (Depdiknas,2006). Therefore, learn 

mathematicsappropriately is the first step in the control of development concept. In mastering 

the concepts, student’s reasoning is required to give the understandingabout the learning 

process independently. According to Ruseffendi (2006) and Soedjadi (2000) Mathematical 

reasoning needs the variation of cognitive abilities and thorough cognitive activities in the 

solution of problems process. According Wahyudin (2008) Reasoning is part of the process of 

mathematical problem solving. 

Depdiknas (Sadiq,2004) states Mathematics and its reasoning cannot be separated from 

one to each other.Both complementary reasoningsare understood and practiced by studying 

mathematics, while mathematics problems are understood through reasoning. Mathematical 

reasoning is part of the problem-solving process that involves thinking and reasoning skills of 

students in seeking alternative solutions to problems. (Singapore Ministry of Education, 2009). 

In real life - the reason and think analytically always focused on the pattern, structure or form 

of symbolic rules. (NCTM 2000). The patterns used are observation, conjecture and evidence. 

With the mastery of mathematical reasoning abilities, the students can solve mathematical 

problems in the learning process. 

mailto:riska.s199@gmail.com


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Achievement of the average Indonesian students’ mathematics skill is lower than 

International standards. TIMSS International Benchmark, (2011) that written back in Puspendik 

(2012) in which Indonesia is ranking 38th with a score of 386 from 42 countries. In 2015 

Indonesia was ranked 45th out of 50 countries received a score of 397. Although there was an 

increase from the previous year, it obviously need repairing that Indonesian Students need to 

strengthen the ability on integrating information, drawing conclusions, and generalizing 

knowledge to the other things (Puspendik 2016). These three things are not separated from 

aspects of students' mathematical reasoning that need to be improved. Results of preliminary 

observations also showed that the average of mathematics achievement for students of 

VIIIFgrade inState of Islamic Junior High School 1 Trenggalek only reaches 71.56%. The 

percentage of final daily test values ranged between 60-75% of the total number of students. 

Therefore, this research wasmore focused on the "Analysis of students’ Mathematical 

Reasoning Ability in completing the Mathematics Problem solving on Geometry". 

 

RESEARCH METHOD 

The subjects in this study were 6 students of class VIII F in State of Islamic Junior High 

School 1 Trenggalek. The scope of the materials used were flat geometry that taught in class 

VIII. This study used mathematical reasoning ability test instrument.This type of research was 

descriptive. In this study the researcher revealedthe students’ reasoning abilities of State of 

Islamic Junior High School 1 Trenggalek in solving problems related to the understanding of 

the concepts and procedures on the subject materials of Flat sides on Geometry that learnt by 

class VIII. This research used qualitative and quantitative approaches. Qualitative data in the 

form of descriptions on how the students completedthe mathematics problems of flat sides on 

geometry material from mathematical reasoning aspects. Quantitative data was derived from 

scoring of each mathematical indicators. 

In this study, the indicators used mathematical reasoning and examined the following 

aspects: 1) the presentation of mathematical statements orally,writing or in the pictures or 

diagrams,2) Conclusion, the preparation of evidence, reasoning or evidence of some solutions, 

3)draw conclusions from a statement,and 4)Determination of a pattern or make the symptoms 

of a problem to manufacture the generalizations(Iqbal, 2015).  

 

RESULT AND DISCUSSION 

The result of written tests was gained from the observation of 6 students by using 

mathematical reasoning skills test instruments. The assessment of instruments in the form of 

mathematical reasoning ability tests obtained from 4 descriptive questions. The result of this 

study were the data from the analysis of student answers based on scoring guidelines 

mathematical reasoning ability (Table 2). The scoring resultof mathematical reasoning ability 

on the material of flat sides geometry were presented in Tables 1 and 2 below. 
table 1 The Scoring Result of Students’ Reasoning Ability from Each of Indicator Problem 

NO The number of 

students 

The 

maximum 

score 

The 

minimum 

score 

Average Percentage 

(%) 

1 6 4 1 2,66 71.50 

2 6 4 1 3 73.33 

3 6 4 1 2,66 71.50 

4 6 4 0 1.67 66.67 

      



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table 2 The Overall Scoring Results ofStudents’ Reasoning Ability from Each of Indicator Problem 

The average percentage of mathematical reasoning skills on students' ability to carry out 

the calculations based on the formula / mathematical rules that apply to the questions from 

number 1 and 3 was 71.5%, it meant that most of the students were able to carry out the 

calculations based on mathematical formulas orapplicable rules, the students’average 

percentage mathematical reasoning skills in making an estimation in question 2 was 73.33%, it 

meant, the studentswere able to make the calculations correctly. While for Question4 was 

66.67%, it showed most of the students were able to make calculations averagely correct. The 

students’ percentage of mathematical reasoning abilities for the whole questions reached 

69.59%, it could be concluded that most of the students in State of Islamic Junior High School 

1 Trenggalek classified as having the ability of mathematical reasoning well. The following 

were some sample responses of the students in answering questions that include indicators 1 

through 4. 

 
Picture 1. Students’ answer in answering the Question of Indicator1 

 

SC answered the firstQuestion on the surface area of the pyramid are not systematically 

and used some steps: 1) SC no longer write the length of ribs 10, and 2 of height. meanwhile, 

indicated directly by a small image that was not so clear. 2) SC was asked to write down what 

was the surface area of the pyramid and the pyramid sketch. 3) SC wrote the correct answer 

that the rectangular pyramid surface area equal to 360 systematic measures and appropriated 

with the formula quadrilateral pyramid surface area. Step (1) and (2) were an understanding of 

the stages and the early stages ofplanning Polya. While the step (3) was the final stage of 

planning that was characterized by writing Polya formula pyramid surface area and stage of 

final solving problems that signed by the views of the surface area of the pyramid 360 and 

rechecking that could be seen at the interview stage that students could conclude that the area 

of the surface of the pyramid 360 was correct. So SC received a total score of 2 since SC did 

not present a mathematical statement in writing, but did the calculations correctly. This showed 

that the first indicator of mathematical reasoning ability was achieved with rudimentary. Based 

on the interview the student could not answer thefirst indicator correctly because the calculation 

Subject Question 1 Question2 Question3 Question 4 
Percentage 

(%) 

SA 4 4 4 4 100 

SB 4 4 4 0 75 

SC 2 4 2 3 71.81 

SD 3 4 1 0 50 

SE 1 1 4 0 37.5 

SF 2 1 1 0 25 



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was based on the formula of mathematical rules andthe result was wrong then the score was 2 

point. 

 
Figure 2.Students’ answer in answering the Question of Indicator 2 

 

SB answered the questions number 2 on many sides, ribs and the vertexes on the prism 

based on the type of prism. The steps that taken by SB to answer the questions were: 1) wrote 

down what was known about the exact form of the prism, it showed that SB understoodthe 

questionscorrectly.2) Described what was being asked about the sides, ribs and vertexes prism, 

it meanthe / she did the initial planning steps correctly too.  3) Answered correctly according to 

what was asked about, for example:  triangular prism had 9 ribs, 5 sides and 6 of vertexes. 

The same thing was done on the pentagon and rectangular prism. This step was a 

finishing step to determine the formula from many sides, ribs and vertexes prism angle of point-

n. This meant that SB could conclude what wasthe question about and also able to check it 

back. For this point, He / She got a score of 4. Based on this result, it could be said that SB was 

able to master the second indicator of mathematical reasoning by drawing the conclusion, 

compiling evidence, reasoning or evidencing some of good solutions from the questions. 

 
Figure 3. Students’ answer in answering the Question of Indicator 3 

 

SB worked on Question 3 that asked about how much time that needed to drain the 

water into the tub until it would have filled. Some steps taken by SB to answer it were: 1) wrote 

down what was known about the exact form of a tub-shaped beams measuring of 2 m × 2 m × 



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3m and filled up with the water. It meant SB understood the questions well. 2) wrote down what 

was being asked, which was: The time required to drain the entire water, it showed that SB did 

the initial planning as well. 3) answered correctly according to what was asked about, which 

was the time thatrequired 96 minutes with a volume of tub 12m². These results were 

obtainedfrom the observation of table. Based on the step (3) SB had shown steps to resolve as 

well as a step of checking back because SB could perform calculations and found the answers 

correctly about how much time taken for 1m³was 8 minutes. Hence, the time used to fill the 

bathtub was during 96 minutes. From the description above it could be concluded that the third 

indicator of mathematical reasoning was good such as drawing conclusions from statements, so 

SB got a score of 4. 

 
Figure 4. Students’ answer in answering the Question of Indicator 4 

 

SA did the question number 4 on volume of two pyramids that had a different height. 

Some steps that taken by SA were:1) wrote down what was He/ She known about the precise 

form of: (a) the length of ribs = 6 cm, width ribs = 5 cm,and height= 4 cm and (b) the length of 

ribs = 6 cm, wide ribs = 5 cm, and height= 6 cm. It meant SA understood the questions very 

well. 2) wrote down what was being asked if the volume ratio of the pyramid and the volume 

of the high ratio were p: q, it meant SA performedthe beginning steps with understanding and 

proper planning. 3) answered correctly according to what was asked about, Volume of the   

pyramid T.ABCD = 40 cm² with the formula =  x base area ×  height and volume of the pyramid 

T.EFGH = 80cm² with the same formula and the different height, and could determine the 

volume ratio T.ABCD pyramid and T.EFGH = 1: 2. SA also able to find if the ratio of the height 

of the pyramid p: q, the volume of the pyramid was also in the ratio p: q. step 3 showed the 

steps to resolve Polya appropriately. The researcherdid re-checkingin the interview,then found 

that SA could explain how that answer came. Therefore SA received a score of 4. It showed 



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indicators 4 determined the pattern or nature of the symptoms of mathematical generalization 

in mathematical reasoning ability was achieved perfectly. 

From the results of the work, it can be seen that subject SC had been able to fulfill the 

reasoning indicators. Therefore,it was needed for in-depth interview to the SC. Here were 

excerpts from the interview: 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

In the interview above, it showed that SC answer the question by using Polya stages. 

SC was very convinced by step process. SC mastered the concept of second question so the 

second indicator was fulfilled.The result of working sheet and the interview of question number 

Researcher: Ok, now look at number 1 (Appendix 2) 

SC             : Read the question. 

Researcher: Take a look back on your work, was it correct? 

SC            : (Taking into account the results of his work) 360 cm² for 

its volume 

Researcher: Ok, so for the first Question,was itclear? 

SC            : Yes Miss, it was clear. 

Researcher: Now, see the second question (Appendix 2), was it 

correct? 

SC          : (Silence of the outcome of the work) I felt it was right, Miss. 

Researcher: Please take a look one more time, was there something 

wrong? 

SC: (Watching worksheet), sorry Miss, I less scrupulous. 

Researcher: so how about the conclusion? 

SC: Its formula was number of vertices  

Researcher: Notice the Question number 3 (Appendix 2). Was it clear? 

SC: It was clear, Miss. 

Researcher:Ok, then let’s come to number 4, why the work was not 

resumed? 

SC: I had forgotten how it worked, Miss. 

Researcher: Now,please try to do it. 

SC: Yes, Miss. 

Researcher: Have you understood with the answer? 

SC: Yes, Miss. I have Understood. 

Researcher: Now about the formula of Prisma? 

SC: (Silence) I do not know, Miss. 

Researcher:According to your first steps, did you doitcorrectly? 

Number 1 

SC: Yes,Missbecause the formula was correct. 

Researcher: Are you sure? Please try to examine it once again, take a 

look one by one from entering the length, width, height and he 

calculation. Was there anything wrong? 

SC: (the subject paid attention to the answer sheet). Yes, Miss. The 

height should be 8 cm but I wrote 10 cm. I wrote the wrong number. 

Researcher: How could you write the wrong height? 

SC: Yes, I wrote it wrong. Then I did it incorrectly.  



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2 were similar. The similarity was SC looked very confident and mastered the concepts of 

materials so that SC could draw exact conclusions. 

Based on the result data analysis the students’ mathematical reasoning ability of VIIIF 

grade of in State of Islamic Junior High School 1 Trenggalekcould be seen from the students’ 

worksheets and interview. Students who have high mathematical reasoning abilities were the 

students who fulfilled almost all indicators of mathematical reasoning abilities, which were; (a) 

the ability to provide a conclusion, (b) the ability to predict the answers and solutions, (c) the 

ability to use patterns and relationships to analyze mathematical situations. 

The following analysis were based on table 2 of students’ math reasoning skills 

according to ability levels:Subjects with high mathematical reasoning abilities reach an average 

of around 74.22% of the observed subjects. For subjects with high ability reasoning ability 

categorized as having high mathematical reasoning ability.It could be shown by fulfilling three 

categorizations of indicators by ability to present a mathematical statement in writing, orally or 

drawing, tell the conclusions, preparethe evidence and givesome solutions.Subjects with 

mathematical reasoning abilities were averaged approximately 51.26% of the observed 

subjects. From the results of the students’ work who have the ability to moderate, it could be 

seen that students were reaching the two of indicators measured, theywere; mathematical ability 

in writing, orally or drawing and drawing conclusions.Subjects with low mathematical 

reasoning capabilities reached about 44.44% of the observed subjects. From the results of 

students’ work who had low capability, it could be seen that students were not able to fulfill the 

indicators of mathematical reasoning abilities that measured. They did not understand the given 

problem due to the lack of understanding about the concept. 

This was in line with the statement mentioned by Linola, D., Marsitin, R., & Wulandari, 

T (2017) and Mikrayanti (2016), state that mathematical reasoning abilities of learners in 

solving word problems was high. Learners with reasoning abilities as much as 4% lower 

categories, students with reasoning ability medium category by 32%, and learners with high 

category reasoning abilities as much as 64% with the category of ;High, low and moderate. 

CONCLUSION 

The level of mathematical reasoning from 6 subjects of students from VIIIF grade of 

State of Islamic Junior High School 1 Trenggalek on the flat side Geometry subjectwas good 

with the average of 69.59%. It fulfilled by three categories as follows: Students with high 

mathematical reasoningcould master the three indicators well. Students with moderate 

mathematical reasoningable to master the mathematical reasoning 2 indicator well. Subjects 

with low mathematical reasoning abilities could only master one indicator well and complete 

the question by using Polya step which were understanding the planning and completing well 

but only the fourth stage aboutrechecking was still lacking. It was proved from the test sheets 

and interviews conducted, that some of students could not explain their answers. 

 

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