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Volume 5, Number 1, February 2021 

THE RELATIONSHIP BETWEEN FIFTH GRADE STUDENTS’ 

NUMBER SENSE AND THEIR MATHEMATICAL 

 PROBLEM SOLVING 
 

Annisa Mutmainnah1, Zetra Hainul Putra2, Syahrilfuddin3 

1 Universitas Riau 
2 Universitas Riau 
3 Universitas Riau 

1mutmainnahannisaa@gmail.com, 2zetra.hainul.putra@lecturer.unri.ac.id ,  
3syahrilfuddin@lecturer.unri.ac.id   

 

Abstract 
 

This research was aimed to find out the relationship between the fifth grade students’ number sense and 

their mathematical problem solving. The participants of this study were 73 fifth grade students from a 

private Islamic school in Pekanbaru, Indonesia. The research method used is in the form of quantitative 

methods. The instrument in this study is a test, where the data collected by distributing a test about 

students’ number sense and their mathematical problem solving. Number sense indicators consist of 

number concepts, multiple representations, effects of operations, equivalent expressions, and computing 

and counting strategies. The problem solving materials consist of numbers, fractions, geometry, and 

measurements. The data analysis technique is done by presenting data, normality test, linearity test, 

linear regression test, and hypothesis testing using the Pearson product moment correlation. The results 

showed that there was a significant correlation between students’ number sense and their mathematical 

problem solving. After that, a correlation test is performed between all number sense indicators with 

mathematical problem solving materials. The indicator of computing and counting strategies has high 

correlation with measurement.  

Keywords: Correlation, Number Sense, Problem solving 
 

 

Abstrak 
 

Penelitian ini bertujuan untuk mengetahui hubungan antara kemampuan number sense dan kemampuan 
pemecahan masalah matematika siswa kelas V. Partisipan penelitian ini berjumlah 73 siswa kelas lima 

dari sebuah sekolah Islam swasta di Pekanbaru, Indonesia. Metode penelitian yang digunakan berupa 

metode kuantitatif. Intrumen dalam penelitian ini adalah tes, dimana data dikumpulkan dengan 

mendistribusikan tes tentang kemampuan number sense dan kemampuan pemecahan masalah 

matematika mereka. Indikator kemampuan number sense terdiri dari konsep angka, representasi ganda, 

efek operasi, persamaan ekspresi, dan strategi komputasi dan penghitungan. Materi tes pemecahan 

masalah terdiri dari bilangan, pecahan, geometri, dan pengukuran. Untuk teknik analisis data dilakukan 

dengan penyajian data, uji normalitas, uji linieritas, uji linier regresi, dan uji hipotesis yang dilakukan 

dengan menggunakan korelasi pearson product moment., Hasil penelitian menunjukkan bahwa terdapat 

korelasi yang signifikan antara kemampuan number sense dan kemampuan pemecahan masalah 
matematika siswa. Setelah itu, uji korelasi juga dilakukan antara semua indikator kemampuan number 

sense dengan seluruh materi pemecahan masalah  matematika. Korelasi tertinggi yang diperoleh yaitu 

korelasi antara indikator  komputasi dan penghitungan dengan materi pengukuran.   

Kata Kunci: Korelasi, Number sense, Kemampuan pemecahan masalah 

 

INTRODUCTION 
 

Mathematics in primary school has a scope that includes numbers, geometry, 

measurements, and data processing. Numbers are the basic components of mathematics 

because of the basis of mathematics (Purnomo, 2013). It is important to master the numbers in 

mailto:mutmainnahannisaa@gmail.com
mailto:zetra.hainul.putra@lecturer.unri.ac.id
mailto:syahrilfuddin@lecturer.unri.ac.id


 

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learning mathematics. It does not only recognize numbers and is skilled in counting, but also 

understands the properties of numbers, has a good intuition about numbers, and also knows the 

relationships between numbers. This sensitivity to numbers and calculations is known as the 

ability of number sense. 

Number sense can be defined as a student's understanding of numbers and number 

operations with the ability to use these understandings flexibly in making mathematical 

decisions and developing useful and efficient strategies in managing questions related to 

numbers (McIntosh, Bana, & Farrell, 1997; McIntosh, Reys, & Reys, 2005). Correspondingly, 

Dehaene (in Tonra, 2016) states that humans must have an understanding of number sense and 

must be nurtured to assist and support the future development of mathematical thinking and its 

application. So, the ability to number sense, which if properly trained and developed, will be 

beneficial for students because it is terrific to support students' intelligence thinking. Students 

with a good number sense ability will be skilled in solving math problems. They can do the 

calculations according to the needs and practical calculations, not only encouraged by using 

routine calculations, but also to use their understanding of numbers to solve mathematical 

problems that are not limited by traditional algorithms or procedures (Safitri, Mulyati, & 

Chandra, 2017).  

Several previous studies have shown that students’ ability of the number sense was low 

(Safitri et al., 2017; Witri, Putra, & Nurhanida, 2015). Students have lack of understanding 

related to numbers and operations and had lack of understanding of the relationship between 

the context of the problem and the calculations needed and no awareness of some efficient 

strategies and methods in solving math problems. Witri et al., (2015) found that fifth-grade 

students had low number sense abilities, especially in the concept of fractions. 

In this study, we are interested in studying students' ability of number sense and its 

relation to their ability to solve mathematical problems. By following what was explained by 

Safitri et al., (2017)  that the ability of a good number sense can help students be skilled in 

solving math problems by making calculations more effective. Problem-solving is one of the 

abilities that students must master. Soedjadi (2000) explains that the ability to solve 

mathematical problems is a skill in students to be able to use mathematical knowledge 

(including numbers) to solve problems in mathematics, problems in other sciences and also 

problems in everyday life. In this case, number sense provides an essential role in solving these 

mathematical problems. Someone with excellent number sense abilities will eventually be able 

to utilize their knowledge of numbers in various situations, especially in solving mathematical 



 

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problems. Thus, the research question for this study is to what extend the relationship between 

students’ number sense and their mathematical problem solving?  

 

Number Sense  

 

Number sense is a student's understanding of numbers and number operations in the 

ability to use that understanding flexibly to make mathematical decisions and develop 

strategies that are useful in solving problems related to numbers (McIntosh et al., 1997, 2005). 

Another definition is also explained by Yang and Hsu (in Habibah, 2016) which states that 

number sense refers to a person's general understanding of numbers and their operations and 

ability to deal with everyday situations related to numbers. This ability is divided into the ability 

to use strategies that are useful, flexible, and also efficient in making calculations and estimates 

to deal with numerical problems. 

Amirulloh and Budiarto (2013) explain some of the benefits of number sense, namely: 

1) understand the numbers thoroughly, namely understanding numbers starting from the 

definition, how to represent numbers, the relationship between numbers, and knowing the 

number system, 2) understanding number operations, that is understanding the definition of 

number operations and the use of number operations correctly in everyday life. 3) resolve 

problems quickly, namely, students who have good number sense will affect the smoothness 

of calculations and make thought for problem-solving for the better. 

In general, there are five components to measure the ability of students’ number sense 

(McIntosh et al., 2005). The five components are used as instructional in this study, namely: 

1. Understand the meaning of numbers, number operations and relationships between 

numbers.  

2. Able to use various representations and number operations.  

3. Get to know the relative size of numbers.  

4. Being able to decompose and compose numbers flexibly. 

5. Being able to decide wisely the results of calculations through different strategies. 

From the components of number senses described by McIntosh et al., (2005) and Yang, 

Hsu, and Huang (2004), we develop number sense ability indicators, where the indicators are 

used as a reference for this study. 

 

 



 

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Mathematical Problem Solving  

 

Problem solving is defined as an activity carried out by changing one's perspective on 

the problem to identify the problem, which is then decided on how to solve the problem (Polya, 

1983; Robson & Polya, 1946). According to Polya, the solution provided is not only an answer 

to solve a problem but also contains a procedure that must be done to get an answer. For this 

reason, the answer giver or the one who resolves the problem must provide detailed resolution 

steps. There are four steps students must take to solve a given problem, namely: : (1) 

understanding the problem, (2) devising a plan, (3) carrying out the plan that has been made, 

and (4) looking back at all the processes carried out. 

The ability to solve mathematical problems is a skill in students to be able to use 

mathematical activities to solve problems in mathematics, problems in other sciences and also 

problems in daily life (Putra, Darmawijoyo, Putri, & den Hertog, 2011; Putra & Witri, 2019; 

Soedjadi, 2000). Posamentier and Krulik (2009) in his book entitled Problem Solving in 

Mathematics Grades 3-6 explains that problem solving strategies have been divided into nine 

strategies. Something similar is explained in Syahlan (2017) Syahlan (2017) and Umar (2016) 

which are as follows: organizing the data, intelligent guessing and testing, solving a simple, 

equivalent problem, acting it out/ simulating the action, working backward, finding a pattern, 

logical reasoning, making a drawing, and adopting a different point of view. 

 

METHOD   

The type of research used in this study is a quantitative research method, specifically 

the correlational method. The correlational study  is research that is intended to determine 

whether there is a relationship between the two variables used, namely the ability of number 

sense as an independent variable (X) and the ability to solve mathematical problems as a 

dependent variable (Y). 

The population in this study was 73 students in the fifth grade  from a a private Islamic 

school in Pekanbaru, Indonesia. Furthermore, the sample was taken using a saturated sample 

technique where all members of the population were sampled namely 73 students consisting of 

38 male students and 35 female students. The age of the sample students ranged from 11 to 12 

years, all of whom were born in 2008 and 2009. In mathematics learning, the sample students 

had learned about numbers, number operations, different types of fractions, fraction operations, 

measurements (length, time, and weight), get up flat and build space. 



 

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The first step taken by researchers is to prepare research instruments in the form of 

number sense ability test questions and mathematical problem solving ability test questions.  

The first researcher tested the problems to 10 non-sample students and conducted a semi-

structured interview to get an insight of their difficulties and challenges in solving those tasks.  

Then, the instruments was revised with the expert team. The number sense ability test 

instrument that were tested on sample students was developed based on the number sense 

indicator and also seen from previous studies conducted by Nurhanida, Witri, and Alpusari 

(2017) and Witri et al., (2015) where there were 20 questions in the form of objective. As for 

tests of mathematical problem-solving abilities, researchers adapted Posamentier and Krulik's 

questions (2009) and also designed our own questions, which included 4 mathematical learning 

content, namely numbers, fractions, measurements, and geometries, with a total of 20 questions 

and essays. 

Data analysis techniques in this study are using statistics with the following stages: (a) 

Presentation of data, After obtaining data on a number sense ability test and a mathematical 

problem solving ability test, the researcher then performs a scoring and recapitulates, (b) 

Calculates the mean, standard deviation, median, minimum and maximum values, and (c) 

Percentage  of number sense abilities and mathematical problem solving. 

Further analysis prerequisite tests were conducted including: (a) normality test, 

normality test using the Kolmogorov Smirnov technique (Sugiyono, 2014) with the help of 

SPSS version 25 computer program. Data are stated as a normal distribution if the probability 

value is above a significant level of α = 0.05. (b) Linearity, the testing criteria is if the 

significant coefficient of linearity is less than 0.05, then the linearity test is suitable for use in 

linear regression. The linearity test uses the help of SPSS version 25. 

The data analysis in this study include: (1) Product Moment correlation test. Product 

Moment correlation test is used to determine whether there is a correlation between two interval 

type variables (Misbahuddin, 2013; Sugiyono, 2014). The product moment correlation test is 

performed using tthe SPSS version 25 assistance. (2) Coefficient of Determination, to express 

the small contribution of variable X (number sense ability) to variable Y (mathematical 

problem solving ability).(3) Significance test, the significance test is carried out to find out the 

magnitude of the relationship between independent variables using the t-test, in this study the 

t-test uses SPSS version 25. With the testing rule that is if t-count ≥ t-table then accept the 

hypothesis that there is a significant correlation between students’ number sense and their 

mathematical problem solving abilityand (4) Analysis of Linear Regression Test conducted to 



 

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test whether or not the relationship between two variables is significant through its regression 

coefficient. In this study the linear regression test was carried out using the SPSS version 25 

computer program. 

 

 

RESULTS AND DISCUSSION 

 

Results 

 

Students’ number sense  

Students’ number sense was measured based on the five indicators. The summary of 

students’ number sense was presented in table 1 as follows: 

Table 1. Students’ Number Sense Based on The Five Indicators 

Number sense indicators Average Score 

Number concept 51 

Multiple representation 35 

Effect of Operations 59 

Equivalent expressions 23,6 

Compulating and counting strategies 47,6 

 

From the five indicators of number sense ability, the ability of effect of operations is 

the ability with the highest test score.  This was indicated by the questions regarding assessing 

whether the numbers obtained as a result of operations make sense, there are more than 70% 

of students who answered correctly. However, the indicator of the ability of number sense to 

get the lowest value is the ability of equivalent expressions with the acquisition of an average 

value of only 23.6. It was indicate that more than 50% of students cannot answer correctly the 

four questions given. Less than 20% of students can answer correctly. This happens because 

students have difficulty recognizing and determining other expressions that are equivalent to 

given mathematical expressions. Especially for the question where students incorrectly 

determine the same result of 0.5 x 720, they on average answer option choice D which is 0.50 

x 72, while the correct answer is option C which is 720 ÷ 2.  

The average score of students’ number sense was 43.15 and the standard deviation  of 

16.43. The score ranges between 10 to 85. We present the detailed results on table 2 bellow : 

 



 

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Table 2.Category of Students’ Number Sense Ability 

Category Value Frequency Percentage% 

Very High (advance) 75 < N ≤ 100 1 1,37 

Height 64 < N ≤ 75 8 10,96 

Medium (intermediate) 53 < N ≤ 64 13 17,81 

Low 0 ≤ N ≤ 53 51 69,86 

Total 73 

  

Based on table 2, it shows that students’ number sense is in a low category. The students only 

could give correct answers to a half of the number sense tasks.  

 

Students’ mathematical problem solving  

Students’ mathematical problem solving was measured using 20 open-ended questions. The 

questions consist of four mathematics domains, namelly numbers, fractions, geometry , and 

measurements. We present the summary of students’ mathematical problem solving on the 

table 3 bellows: 

 

Table 3. Students’ Mathematical Problem Solving Based on Four Mathematichal Domains 

The Mathematical Domains Of Prolem 

Solving 

Average Score 

Number  65 

Fractions  49 

Measurement  37 

Geometry  31 

 

From table 3, it is obvious that students’ problem solving on the domain of numbers 

has the highest average score of 65, where the average student has been able to solve the 

problem with the existing steps regarding numbers. However, students’ problem solving on the 

domain of geometry has the lowest score, which is only 31. This happens because the average 

student does not know the formula  and how to solve problems related to geometry. 



 

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Students’ mathematical problem solving scores between 7.89 and 81.58. The average 

score of students’ mathematical problem solving  was 46.03 and the standard deviation (SD) 

of 17.33. We present the detailed results on table 4 bellows:  

Table 4. Categories of Students’ Mathematical Problem Solving 

Category Value Frequency Percentage% 

Very High (advance) 75 < N ≤ 100 3 4,11 

Height 64 < N ≤ 75 11 15,07 

Medium (intermediate) 53 < N ≤ 64 12 16,44 

Low 0 ≤ N ≤ 53 47 64,38 

Total  73 100 

 

Based on table 4, it shows that students’ mathematical problem solving is in a low 

category. Most students could only solve less than a half of the problems. 

 

Hypothesis test 

 

Hypothesis testing in this study uses the Pearson product moment correlation test. The 

correlation test result using SPSS version 25 can be seen in table 5 below 

. 

. Table 5. The Correlation Test Results For Students’ Number Sense (X) and Their 

Mathematical Problem Solving (Y) 

  Mathematical Problem Solving  

Number Sense  Person Correlation 

Sig. (2-tailed) 

N 

.634** 

.000 

73 

 

Based on table 5 the results of the correlation test obtained r- count of 0.634. This result 

indicates that there is a high correlation at the 0.01 level between students’ number sense and 

their mathematical problem solving.  To find out the significance of the correlation coefficient 

of students’ number sense  with their mathematical problem solving, we present the result on 

table 6 below.  



 

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Table 6. Test Results Significance of Number Sense Ability with Mathematical Problem 

Solving Ability 

Number sense 

ability with 

mathematical 

problem solving 

ability 

tcount ttable Determination 

Coefficient 

(%) 

Remarks 

6,91 1,66 40,20 There is a significant 

correlation 

 

Table 6 shows the results of the significance test of students’ number sense with their 

mathematical problem solving.  tcount (6.91) is greater than ttable(166), and it can be concluded 

that there is a significant correlation between students’ number sense and their mathematical 

problem solving. Table 6 also shows the results of the coefficient of determination between 

students’ number sense their mathematical problem solving. The result  shows that the 

students’ number sense contributes to their mathematical problem solving by 40.20% and the 

remaining 59.80% is determined by other factors.  

Beside looking the main correlation between students’ number sense and their 

mathematical problem solving, we also investigate the correlation each number sense indicator 

with four mathematical domains of problem solving. We present the results on table 7 bellow  

 

Table 7. Correlation Test Results for Number Sense Ability Indicators with Mathematical 

Problem Solving Ability Material 

Number Sense 

Indicators 

The Correlation Coefficient (rxy) with Content 

Mathematical Problem Solving Capabilities 

Numbers  Fractions  Measurements Geometries  

Number concept 0,168 0,331** 0,385** 0,430** 

Multiple representation 0,218 0,303** 0,315** 0,353** 

Effect of operations 0,136 0321** 0,172 0,042 

Equivalent expressions 0,026 0,249* 0,159 0,201 

Counting and 

compulating strategies 

0,503** 0,542** 0,566** 0,385** 

  



 

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Based on the table 7, the correlation indicator ability number sense has the lowest level 

of correlation coefficient with the ability to solve mathematical problems is the number 

material, where the average number sense ability indicator does not have a significance level 

with the number material except counting and compulating indicator strategies that have values 

correlation of  0,503 with a significant level is quite high. While the correlation indicator ability 

number sense has the highest level of correlation coefficient with the ability to solve 

mathematical problems is fraction material, where the overall indicator ability number sense 

has a significance level with fraction material. 

The highest correlation indicator between the 20 correlation tests of all number sense 

ability indicators and all material problem solving abilities that have the highest correlation 

value is the strategic counting and compulating correlation indicator with measurement 

material, where the correlation value obtained is 0.566 ** with quite high interpretation. While 

the one with the lowest value is the equivalent expression indicator correlation test with 

material numbers, the correlation value obtained is only 0.026 with very low interpretation. 

 

Linear Regression Analysis  

Linear regression test is performed to test whether or not the correlation between two 

variables is significant through its regression coefficient (Misbahuddin and Iqbal, 2014). 

Regression analysis is intended to determine the extent to which a variable influences other 

variables or several other variables (Suntoyo, 2013). The results of the linear regression test 

between students’ number sense and their mathematical problem solving are presented on 

figure 1 bellows: 

 

Figure 1. Graph of Regression Linearity Test Results 

 



 

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Based on figure 1, The regression equation between students’ number senseand their 

mathematical problem solving can be modelled as Y = 17,105 + 0,669X. With these equations 

it is known that students’ mathematical problem solving well can be estimated if the ability of 

a good number sense. The value of b = 0,669 means that each 1% increase in the level of 

students’ number sense (X), then students’ mathematical problem solving (Y) will increase by 

0.669 . This linear line equation shows that the regression coefficient value is positive (+) so it 

can be said that students’ number sense (X) has a positive effect on their mathematical problem 

solving (Y). 

 

Discussion 

 

Based on the results of research and data analysis, it can be seen that the fifth grade 

students have low number sense abilities and math problem solving , where students’ number 

sense has an average of  43.18, and their mathematical problem solving has an average of 46.03. 

This is illustrated from the number sense ability test given, students can only work on questions 

in the form of numbers but when given a variety of questions they have difficulty in doing it. 

The reason for the weak ability of students’ number sense because learning in primary school 

is more emphasis on calculation than on understanding the number and concepts themselves. 

This finding is in line with what Cross et al (in Susilowati, 2015) said that, numbers 

sense is expressed as the linkage of knowledge about numbers and their operations where it 

occurs due to a combination of a person's basic number sense knowledge which then increases 

due to experience and teaching. While students’ mathematical problems is low due to the 

inability of students to understand the purpose and objectives of a given problem so they cannot 

determine the steps of solving problem solving by indicators of problem solving steps.  The 

result of this study also indicates that there is a positive correlation between students’ number 

sense and their mathematical problem solving. The two variables have a high correlation. This 

study also shows that an increase in students’ number sense will be followed by an increase in 

their mathematical problem solving (the higher the number sense ability, the higher the ability 

of solving mathematical problems) and vice versa. This means that students 'mathematical 

problem solving can be improved through students' number sense. This is also reinforced by 

the opinion of Safitri et al., (2017) who say that students who have good number sense abilities 

will be able to use their understanding of numbers to solve mathematical problems that are not 

limited by traditional algorithms or procedures. 



 

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The results of the study showed that there was a positive relationship between number 

sense ability and mathematical problem solving abilities, where the number sende ability and 

the mathematics problem solving ability of fifth grade elementary school students were still the 

same in this low category in line with previous research. Among them is research conducted 

by Nurhanida et al., (2017) which focuses on the number sense ability of fifth grade elementary 

school students which shows that the number sense ability of students is in the low category 

with an overall percentage of 49.88%, especially in deciding wisely from the results of 

calculations through different strategies. . In addition, Trisnawati (2017) also conducted 

research that focused on the mathematics problem solving abilities of fifth grade  students in 

elementary schools with the results showing that students' math problem solving abilities were 

still low with an overall score of less than 68. 

Of the test of correlation between each indicator of students’ number sense and each 

domain of problem solving task that has been explained previously, the indicator of students’ 

strategic computing and counting has the highest correlation to students problem solving in the 

domain of measurement. Moreover the one with the lowest correlation is the indicator of 

students’ equivalent expressions with their problem solving in the domain of numbers. The 

students are less able to do mathematical reasoning so that they are complicated to solve 

mathematical problems, especially the problem solving of mathematical numbers.  

CONCLUSION 

 

Number sense is believed to be capital important for supporting the future development 

of students’ mathematical thinking and its application. Students’ low number sense could be a 

problem for the students to learn more advance mathematical problems, including 

mathematical problem solving. Through this study, we have shown that fifth grade students 

have difficulties to solve the tasks related to number sense and problem solving on four 

domains, numbers, fractions, geometry, and measurement. Students’ low number sense affects 

their performance on mathematical problem solving task. Therefore, we like to suggest further 

study to develop and design a learning trajectory that could support students’ number sense 

because students’ number sense has a positive correlation to their mathematical problem 

solving. 

 

 

 

 

 
 



 

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