Infinity


  

 Journal of Mathematics Education    p–ISSN 2089-6867 

 Volume 6, No. 2, September 2017    e–ISSN 2460-9285 
 

DOI 10.22460/infinity.v6i2.p95-110 
  

95 

MATHEMATICAL LITERACY’S VOCATIONAL STUDENTS 

BASED ON LOGICAL AND NUMERICAL REASONING 
 

Lathifatun Ni’mah
1
, Iwan Junaedi

2
, Scolastika Mariani

3
 

 
1
 SMK NU Lasem, Jl. Sunan Bonang KM 01 Lasem Rembang, Jawa Tengah, Indonesia 

2,3
 Semarang State University, Jl. Sekaran, Gunung Pati, Kota Semarang, Jawa Tengah, Indonesia 

1 
nlathifatun@yahoo.co.id 

 

Received: March 03, 2017 ; Accepted: May 01, 2017 

 

Abstract 
 

The research aims is (1) to obtain learning quality of CTL model to students mathematical literacy, (2) 

to obtain mathematical literacy description based on logical reasoning, (3) to obtain mathematical 

literacy description based on numerical reasoning and (4) to obtain mathematical literacy description 

based on logical and numerical reasoning. The research type is descriptive study. The subject is XI AK 

SMK NU Lasem were taken 6 students high, medium and low logical reasoning, 6 students high, 

medium, and low numerical reasoning, 6 students high, medium, and low logical and numerical 

reasoning, 2 students high logical and medium numerical reasoning, 2 students medium logical and 

high numerical reasoning. The research result is (1) CTL models learning quality for mathematical 

literacy is good, (2) student mathematical literacy based on high logical reasoning level 4 and 5, 

medium level 3, low level 1 and 2, (3) student mathematical literacy based on high numerical 

reasoning level 5, medium level 4, low level 2 and 3, (4) student mathematical literacy based on high 

logical and numerical reasoning level 5, medium level 3 and 4, high logical and medium numerical 

reasoning or medium logical and high numerical reasoning level 4 and 5, low level 1 and 2. 
 

Keywords: CTL, logical reasoning, mathematical literacy ability, numerical reasoning. 
 

 

Abstrak 
 

Penelitian bertujuan untuk (1) memperoleh gambaran kualitas pembelajaran model CTL terhadap 

kemampuan literasi matematika, (2) memperoleh gambaran literasi matematika ditinjau dari penalaran 

logis, (3) memperoleh gambaran literasi matematika ditinjau dari penalaran numerik dan (4) 

memperoleh gambaran literasi matematika ditinjau dari penalaran logis dan numerik. Jenis penelitian 

ini adalah penelitian deskriptif. Subjek penelitian adalah siswa XI AK SMK NU Lasem diambil 6 

orang kategori penalaran logis tinggi, sedang, dan rendah, 6 orang penalaran numerik tinggi, sedang, 

dan rendah. 6 orang penalaran logis dan numerik rendah, sedang, tinggi, 2 orang penalaran logis tinggi 

dan numerik sedang, serta 2 orang penalaran logis sedang dan numerik tinggi. Hasil penelitian 

menunjukkan bahwa (1) kualitas pembelajaran model CTL terhadap kemampuan literasi matematika 

berkategori baik, (2) literasi matematika siswa penalaran logis tinggi mencapai level 4 dan 5, sedang 

level 3, dan rendah level 1 dan 2, (3) literasi matematika siswa penalaran numerik tinggi pada level 5, 

sedang level 4, serta rendah level 2 dan 3, (4) literasi matematika siswa penalaran logis dan numerik 

tinggi level 5, sedang level 3 dan 4, logis tinggi dan numerik sedang maupun logis sedang dan 

numerik tinggi level 4 dan 5, serta rendah level 1 dan 2. 
 

Kata Kunci: CTL, kemampuan literasi matematika, penalaran logis, penalaran numerik. 

 

How to Cite: Ni’mah, L., Junaedi, I. & Mariani, S. (2017). Mathematical Literacy’s 

Vocational Students Based on Logical and Numerical Reasoning. Infinity, 6 (2), 95-110. 

doi:10.22460/infinity.v6i2.p95-110 
 

  

mailto:nlathifatun@yahoo.co.id


Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 96 

INTRODUCTION 
 

Quality of education in Indonesia is currently low. This is consistent with the results of 

research Rusmining, Waluya, & Lewis (2014) that Indonesia has a low education quality 

based on the results of the acquisition of Indonesian students at the international ratings 

(international assessment). One of the factors Indonesian students score low are Indonesian 

students trained solve the problems that substance PISA and TIMSS contextual, demanding 

reasoning, argumentation and creativity to solve them poorly (Wardhani and Rumiati, 2011). 

 

Mathematics and mathematical reasoning are two things that can not be separated (Ministry of 

Education in Shadiq, 2004). Math is believed can increase the power of reason (Kariadinata, 

2012). Human reasoning is also needed when troubleshooting problems or when the decision 

making process (the US president Thomas Jefferson in Shadiq, 2004). Reasoning is one 

indicator of literacy (Turner, 2011). "Problem solving, reasoning, and numeracy is one of the 

EYFS areas of learning and development" (Adonis, 2006). 

 

Studying mathematics literacy is one of the prerequisites for someone to be successful in the 

21st century (Murnane, Sawhill & Snow, 2012). Some activities that can encourage literacy 

math is (1) reasoning mathematically and mathematical concepts, (2) recognizing the role that 

mathematics plays in the world, (3) making well-founded judgments and decisions, (4) 

solving problems set in the pupil's life world context (Sandstorm, Nilsson & Lilja, 2013). 

"Four interrelated thinking processes items, namely problem solving, representating, 

manipulating and reasoning underpin mathematical literacy" (Pugalee in Diezmann, Watters 

& English, 2001). This means that the reasoning underlying the mathematical literacy skills. 

The results of the Diezmann, Watters & English (2001) also mentions that four thought 

process on equal influence on mathematics literacy. 

 

Bokar (2013) argues that today's students should be given the problems associated with the 

real world to prepare students to be able to resolve the issue properly in accordance with 

logical and mathematical reasoning. Durrant-Law (2013) argued that logic is the 

philosophical study of valid reasoning. By the time students complete the real problem is 

given, there is a process that includes phases employing mathematical concepts, facts, 

prosedures, and reasoning (Stacey, 2012). According to Venkat, Graven, Lampen & Nalube 

(2009), two factors suggested as the central development of the literacy skills are 

mathematical reasoning (reasoning) and problem solving (problem solving). For more 

Venkat, Graven, Lampen & Nalube (2009) also stated that the needed in the reasoning is 

numerical and spatial thinking. Therefore, the point of logical and numerical reasoning is 

needed to be studied. 

 

There are several learning models are suitable for reasoning. Based on Shadiq (2004) learning 

theory that fits with reasoning are RME, PBL, and CTL. CTL subject matter associated with 

real life / simulation (Mulyatiningsih, 2010). CTL characteristics include, among others 

Relating, Experiencing, Applying, Cooperating, and Transferring (COR in Kasihani, 2002).  

 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

97 

Based on background that has been described, there are several point of this research: (1) 

How is the quality of the CTL model learning mathematics literacy class XI student of SMK? 

(2) How does the literacy skills math class XI student of SMK based on logical reasoning? (3) 

How does the literacy skills math class XI student of SMK based on numerical reasoning? 

and (4) How does the literacy skills math class XI student of SMK based on logical and 

numerical reasoning?  

 
 

METHOD 
 

This type of research is qualitative descriptive study. The research was conducted at SMK NU 

Lasem AK XI classes in the second semester of the academic year 2014/2015. Results of tests 

of mathematical literacy skills of students were analyzed and deepened by interviewing the 

subject of research as triangulation. For mathematical literacy test using adoption 

mathematical literacy test from south africa 2014. 

 

In this study, reasoning (reasoning) is the activity of thinking to draw conclusions or make 

new statements and was based on some statements whose truth has been proven or assumed 

before (Shadiq, 2004). Definition of logical reasoning in this study is an activity for the 

reasons, decide to accept and reject information, and explain the idea (Dowden, 2011). The 

principles of logical reasoning has been put forward by Dowden (2011) are (1) to find out the 

underlying reasons before accepting a conclusion, (2) provide arguments supporting the 

conclusion, (3) revealed the reasons underlying the decision making, (4) design reasons which 

implies the conclusion, (5) introduce the importance of relevant information, (6) the pros and 

cons, (7) to consider possible actions, (8) to see the consequences of various actions which do, 

(9) evaluate the consequences, (10) consider if the consequences actually occurred, (11) 

delaying decision-making in the state of practice, (12) to assess what was said in the actual 

situation, (13) to avoid judging someone literally, (14) using background knowledge and 

sense healthy to draw conclusions, (15) given that remarkable statement requires 

extraordinary evidence, (16) put off asking an expert, (17) given that firm conclusions require 

strong reasons, (18) consistent reasoning oneself, (19) looking for inconsistencies reasoning 

oneself and others, (20) check some explanation that fits all the facts, (21) to make 

explanations others less so calculated by showing alternative explanations are taken into 

account, (22) reasoning adapted to the subject, and (23) draw conclusions if've got enough 

evidence. 

 

Logical reasoning ability is measured using Kenexa Logical Reasoning Test (LRT). 

Measuring numerical reasoning skills students used numerical reasoning by Paul Newton and 

Helen Bristoll. Reasoning can be classified into 3 groups: (1) a group of high reasoning: the 

value ≥       , (2) a group of medium reasoning                      , (3) 

groups of low reasoning the                 (Suherman and Sukjaya in Riyanto & Siroj, 

2011). Logical reasoning can be classified into 3 groups: (1) a group of logical reasoning high 

the value sdX 1 , (2) groups of logical  medium reasoning sdXsdX 1value1  :, 

(3) a group of low logical reasoning the value sdX 1 : as well as numerical reasoning can 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 98 

be classified into 3 groups: (1) a group of high numerical reasoning the value sdX 1 , (2) 

groups of medium numerical reasoning sdXsdX 1value1  , (3) groups of low 

numerical reasoning the value sdX 1 . 

 

According Ojose (2011) mathematical literacy is the ability of students to be able to 

understand and apply some math applications such as facts, principles, operations, and 

problem solving in everyday life in the past and also the present. Mathematical literacy skills 

in this study is the individual's ability to formulate, employ, and interpret mathematics in 

various contexts (OECD, 2013). Some aspects related to mathematical literacy based on the 

OECD (2013) are as follows. 

(1) The mathematical processes that describe what individuals do to connect the context of 

the problem with mathematics and thus solve the problem, and the capabilities that 

underlie those processes. 

(2) The mathematical content that is targeted for use in the assessment items. 
(3) The context in which the assessment items are located. 

 

Table 1. Proportion Score Sub-sub Process Components Tested 

 in the PISA study (OECD, 2013) 
 

Component Ability Tested Score (%) 

Process Formulating situations mathematically 25 

Employing mathematical concept, facts, 

pocedures and reasoning 

 

50 

Interpreting, applying, and evaluating 

mathematical outcomes 

 

25 

 

There are fundamental mathematical capabilities that include in mathematical processes. The 

fundamental mathematical capabilities are communicating, mathematising, representation, 

reasoning and argument, Devising strategies for solving problems, Using symbolic, formal 

and technical language and operations, and Using mathematical tools. Fomulating include it, 

employing and interpreting too. 

 

 Table 2. Proportion Score Sub-sub Process Content Components Tested 

  in the PISA study (OECD, 2013) 
 

Component Ability Tested Score (%) 

Content Space and shape 25 

Change and Relationship 25 

Quantity 25 

Uncertainty and Data 25 

  

 

 

 

 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

99 

 Table 3. Proportion Score Sub-sub Process Context Components Tested 

  in the PISA study (OECD, 2013) 
 

Component Context understanding Score (%) 

Context Personal 25 

Occupational 25 

Societal 25 

Scientific 25 

 

 

Table 4. Mathematics literacy level based on PISA (OECD, 2013) 
 

Level Student activity 

Level 6 (≥669,3) Students can conceptualise, generalise and utilise information 

based on their investigations and modelling of complex 

poblem situations. They can link different information 

sources and representations and flexibility translate among 

them. Students capable of advanced mathematics thinking 

and reasoning. These students can apply their insight and 

understandings along with a mastery of symbolic and formal 

mathematical operations and relationship to develop new 

appoaches and strategies for attacking novel situations. 

Students at this level can formulate an precisely 

communicate their actions and reflections regarding their 

findings, interpretations, arguments and the appropriateness 

of these to the original situations. 

 

Level 5 (≥607,0) Students can develop and wok with models for complex 

situation, identifying constraints and specifying assumptions. 

They can select, compare and evaluate appopriate poblem-

solving strategies for dealing with complex problems related 

to these models. Students at this level can work strategically 

using broad, well-developed thinking and reasoning skills, 

appropriate linked representations, symbolic and fomal 

characterisations and insight pertaining to these situations. 

They can reflect on their actions and formulate and 

communicate their intepretations and reasoning. 

 

Level 4 (≥544,7) Students can work effectively with explicit models for 

complex concrete situations that may involve constraints or 

call for making assumptions. They can select and intergrate 

different representations, including symbolic, linking them 

directly to aspects of real wold situations. Students at this 

level can utilities well-developed skills and reason flexibly, 

with some insight, in these context. They can construct and 

communicate explanations and arguments based on their 

interpretations, arguments and actions. 

 

 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 100 

Level Student activity 

Level 3 (≥482,7) Students can execute clearly described pocedures, including 

those that require sequential decisions. They can select and 

apply simple problem-solving strategies. Students at this 

level can interpret and use representations based on different 

infomation sources and reason directly from them. They can 

develop short communications when reporting their 

intepretations, results and reasoning. 

 

Level 2 (≥420,1) Students can interpret and recognise situations in context that 

require no more than direct inference. They can extract 

relevant information from a single source and make use of a 

single expresentational mode. Students at this level can 

employ basic logaithms, formulae, pocedures, or 

conventions. They are capable of direct reasoning and 

making literal interpretations of the results.  

 

Level 1 (≥357,8) Students can answer questions involving familiar context 

where all relevant infomation is present and the questions are 

clearly defined. They are able to identify information and to 

carry out routine procedures according to direct instructions 

in explicit situations. They can perform actions that are 

obvious and follow immediately from the given stimuli. 

 

 

Determination of the subjects in this study based on the result of logical and numerical 

reasoning tests using kenexa test and numerical reasoning tests from Paul Newton and Helen 

Bristoll. This study took two students from each of the test results of logical and numerical 

reasoning. Students as research subjects are 2 students with low logical reasoning scores, 2 

students with medium logical reasoning scores, 2 students with high logical reasoning scores, 

2 students with low numerical reasoning scores, 2 students with medium numerical reasoning 

scores, 2 students with high numerical reasoning scores, and if there are students have same 

level of logical and numerical reasoning will be examined too. 2 students with low logical and 

numerical reasoning scores, 2 students with medium logical and numerical reasoning scores, 2 

students with high logical and medium numerical reasoning scores, 2 students with medium 

logical and high numerical reasoning scores, as well as 2 students with high logical reasoning 

and numerical scores. 

 

 

RESULTS AND DISCUSSION 
 

Some domains from Charlotte Danielson's Framework for measuring the success of learning, 

those are (1) planning and preparation, (2) classroom environment, (3) instruction, dan (4) 

professional responsibilities (MacGregor, 2007). Krause, Dias, & Schedler (2015) said that 

there are 7 aspect fo measuring leaning quality (1) competencies and learning activities, (2) 

assessment and evaluation, (3) learning sources, (4) technology aand navigation, (5) learner 

support, (6) accessibility, dan (7) policy compliance. From them, the aspects are assessed on 

the quality of learning include preparation, process, and evaluation. During the preparation 

stage includes three dimensions: the device (syllabus, lesson plans, worksheets, LTS, 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

101 

supplement teaching materials, materials (uncertainty), and assessment (assessment tools). 

Stage of the process also consists of three dimensions: competencies and learning activities, 

learning resources, using technology (related to learning media). Evaluation stage consists of 

tests of mathematical literacy (TKLM). 

 

The preparation phase on the quality of learning consulted to the lecturers through several 

revisions. Learning device that be prepared covering are syllabus, lesson plans, worksheets, 

LTS, supplement teaching materials, and assessment tools. 

 

Table 5. Result Preparation Learning tools 
 

No. Aspect Criteria 

1. Syllabus Good and can be used 

2. Lesson Plan Good and can be used 

3. Worksheet Good and can be used 

4. LTS Good and can be used 

5. Supplement Teaching Materials  Good and can be used 

6.  Assesment Tools Good and can be used 

 

At the process stage including the competence and learning activities, learning resources, 

using technology (related to learning media) that used to help math teacher SMK NU Lasem. 

There are three teachers who observed Eny Handayani, S.Pd., Sunawan, S.Pd., And Sri 

Winarti, S.Pd. The results of the observations made by three teachers mentioned that the 

learning process with CTL model categorized good (average score of quationare is 3). In 

accordance with the results of Melville & Yaxley (2009) which states that one of the model 

that can make pofessional  learning is contextual learning. The following are observations 

about the learning process. 
 

Table 6. Result Process Learning 
 

No. Observer Score (criteria) 

1. Observer 1 3,32 (good) 

2. Observer 2 3,59 (good) 

3. Observer 3 3,41 (good) 

 

Based on the results of research conducted by Suyono (2009) indicating that literacy based on 

effective and productive learning can improve the quality of learning and graduate school. 

TKLM results indicate that there are 2 students who achieve level 1, 2 students at level 2, 5 

students level 3, 7 students at level 4, 2 students have reached level 5, and no student who 

reaches level 6. 

 

Table 7. List of Subjects Research By Category Logical Reasoning 
 

Logical Reasoning Category  Student (TKLM Score) 

High E1 (639,8), E21 (579,3) 

Medium  E15 (523,9), E16 (518,9) 

Low E3 (370,3), E8 (435,8) 

 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 102 

The results from the study showed that the literacy skills of mathematics students with high 

category logical reasoning that the subject E1 (639,8) and E21 (579,3) which have 

respectively reached level 5 and level 4. This is consistent with the results of research Bokar 

(2013) indicating that the student should be given the problems associated with the real world 

to prepare students to be able to solve the problem well in accordance with the logical and 

numerical reasoning. Subject E1 and E21 able to do the formulating problem with basic 

capabilities of communicating, representation, and devising strategies for problem solving. In 

general, E1 and E21 can do the employing problem with basic capabilities of mathematising, 

representation, reasoning and argument, devising strategies for problem solving, using 

symbolic, formal and technical language and operations, and using mathematics tools. For the 

process of interpreting the subject E1 and E21 has been completed perfectly with basic 

capabilities of communicating, representation, and devising strategies for problem solving. 

 

On the subject matter 5.2.2.d E1 and E21 have been able to solve employing problems with 

basic capabilities category mathematising. This suitable with interview result that both of 

them understand and can solve the problem: 
 

5.2.2 Pak Rudi memberi tugas matematika pada siswanya untuk melakukan survei banyaknya 

uang saku siswa laki-laki dan perempuan kelas XI AK yang dihabiskan selama istirahat 

makan siang di sekolah pada hari tertentu.  
 

Banyaknya uang saku siswa laki-laki yang telah di survei 

9.000 10.000 10.000 12.000 12.000 12.000 12.000 12.000 

14.000 15.000 15.000 16.000 18.000 20.000 25.000  
 

Banyaknya uang saku siswa perempuan yang telah di survei 

0 6.000 6.000 9.000 9.000 10.000 10.000 10.000 

11.000 11.000 11.000 11.000 12.000 20.000 25.000 30.000 

 

5.2.2.d Hitunglah median uang yang dihabiskan oleh siswa perempuan 

E1: 

 

E22: 

 

 Figure 1. Sample Results Subject E1 and E21 for Employing Problem with  

  Category Mathematizing Number 5.2.2.d 

 

 

Subject E15 (523,9, level 3) and E16 (518,9, level 3) is already able to do formulating 

problems with  basic of capabilities communicating, representation, and devising strategies 

for problem solving. In the process of the subject Employing E15 and E16 have been able to 

solve problems with basic capabilities of communicating, representation, devising strategies 

for solving problems, and using mathematics tools. If viewed from the process of interpreting 

the subject of E15 and E16 already completed perfectly communicating problems with basic 

capabilities of representation and reasoning and argument. In interview both of them said that 

they can not operate mathematical model in 3.2.4. 

 

 

 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

103 

On 3.2.4 E15 and E16 have not been able to solve employing problems with basic capabilities 

category mathematising. 
 

3.2.4 Pada tahun 2010, laju pertumbuhan penduduk Indonesia adalah 1.49 %. Tentukan 
populasi Indonesia pada tahun 2000 jika populasi pada tahun 2010 adalah 

237.641.326. 

Presentase pertumbuhan  
(                           )

             
      

 

E15: 

 

E16: 

 
  
 Figure 2. Sample Results Subject E15 and E16 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 5.2.2.d 

 

Mathematics literacy skills of students with lower category logical reasoning indicates that the 

subject chosen E3 (370,3) and E8 (435,8) respectively reached level 1 and level 2. When 

viewed from category formulating, Employing, and interpreting the subject of E3 and E8 are 

only able to work on the problems with basic capabilities communicating. 

 

On 3.1.7 E3 and E28 have not been able to solve employing problems with basic capabilities 

category mathematizing. Interview result write that for E3 can not rounding number but E8 do 

not understand to calculate probability.  
 

3.1 Tabel di bawah ini menunjukkan informasi dari profil 2014 penduduk Indonesia. 
 

  Simbol Persentase  

Islam  Islam I 87,2 

Non Islam  Kristen Kr 6,9 

 Katolik Kt 2,9 

 Hindu H 1,7 

 Buddha B 0,7 

 Konghucu Kc 0,05 

 

 

3.1.7. Jika dipilih secara acak penduduk Indonesia hitunglah peluang terpilihnya orang 

beragama Hindu? 
 

E3: 

 

E8: 

 

No answer 

  

 Figure 3. Sample Results Subject E3 and E8 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.1.7 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 104 

 

Table 8. List of Subjects Research By Category Logical Reasoning 
 

Numerical Reasoning Category Student (TKLM Score) 

High E1 (639,8) 

Medium  E4 (566,7), E13 (569,2) 

Low E20 (478,6), E22 (493,7) 

 

Mathematics literacy skills of students with high numerical reasoning category indicates that 

the subject E1 been reached level 5. Subject E1 has been able to do formulating problem with 

the basic capabilities of communicating, mathematising, representation, reasoning and 

argument, devising strategies for problem solving, using symbolic, formal and technical 

language and operations, and using mathematics tools. When viewed from employing 

problem E1 has been able to solve problems with basic capabilities of communicating, 

representation, reasoning and argument, devising strategies for problem solving, and using 

symbolic, formal and technical language and operation. In the process of interpreting the 

subject E1 has been completed perfectly with basic capabilities of communicating, 

mathematising, representation, using symbolic, formal and technical language and operations, 

and using mathematics tools. 

 

The results showed that mathematics literacy skills of students with medium numerical 

reasoning the subject E4 and E13 which have both reached level 4. Subject E4 and E13 is 

already able to do the problems formulating with basic capabilities of communicating, 

mathematising, reasoning and argument, devising strategies for problem solving, using 

symbolic, formal and technical language and operations, and using mathematics tools. Based 

on a review of the employing problem E4 and E13 have been able to solve problems with 

basic capabilities of communicating. In the process of interpreting the subject of E4 and E13 

has been completed perfectly problem with basic capabilities of mathematising, 

representation, using symbolic, formal and technical language and operations, and using 

mathematics tools. 

 

On 3.1.7 E4 and E13 have not been able to solve employing problems with basic capabilities 

category mathematizing. E4 clarify that she does not read problem correctly but for E13 still 

difficult in rounding. 

 

3.1.7 Jika dipilih secara acak penduduk Indonesia hitunglah peluang terpilihnya orang 

beragama hindu? 

E4: 

 

E13: 

 
 

 Figure 4. Sample Results Subject E4 and E13 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.1.7 

 

 

Subject E20 (478,6, level 2) and E22 (493,7, level 3) is already able to do formulating 

problems with basic capabilities of mathematising, representation, reasoning and argument, 

using symbolic, formal and technical language and operations, and using mathematics tools. 

Based on a review of the employing problem E20 and E22 have been able to solve problems 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

105 

with basic capabilities of communicating, and representation. In the process of interpreting 

the subject of E20 and E22 already completed perfectly with basic capabilities of 

mathematising, using symbolic, formal and technical language and operations, and using 

mathematics tools. For clarification both of them said that they can not operate mathematical 

model in 3.2.4. 

 

Examples of the work of a low numerical reasoning subject matter of numbers 3.2.4. 

E20: 

 

E22: 

 
  

 Figure 5. Sample Results Subject E20 and E22 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.2.4 

 

 
 

Table 9. List of Subjects Research By Category Logical and Numerical Reasoning 
 

Reasoning 

Category  

High Numeric 

(TKLM score) 

Medium Numeric 

(TKLM score) 

Low Numeric 

(TKLM score) 

High Logic E1 (639,8) E21 (579,3) - 

Medium Logic E14 (619,6) E16 (518,9),E19 (604,5) - 

Low Logic - - E3 (370,3), E20(478,6) 

 

Subject E1 (level 5) has been able to do about formulating problem with basic capabilities of 

communicating, mathematising, representation, reasoning and argument, devising strategies 

for problem solving, using symbolic, formal and technical language and operations, and using 

mathematics tools. Based on a review of the subject E1 Employing been able to solve 

problems with basic capabilities of communicating, representation, reasoning and argument, 

devising strategies for problem solving, and using symbolic, formal and technical language 

and operation. In the process of interpreting the subject E1 has been completed perfectly with 

basic capabilities communicating, mathematising, representation, using symbolic, formal and 

technical language and operations, and using mathematics tools. 

 

Subject E16 (level 3) and E19 (level 4) is already able to do formulating problems with basic 

capabilities of communicating, mathematising, representation, reasoning and argument, 

devising strategies for problem solving, using symbolic, formal and technical language and 

operations, and using mathematics tools. Employing the process of the subject on the E16 and 

E19 have been able to solve problems with basic capabilities of communicating, and 

representation. In the process of interpreting the subject of E16 and E19 are already solving 

problems with basic capabilities of communicating, mathematising, representation, using 

symbolic, formal and technical language and operations, and using mathematics tools. 

 

For number 3.1.7 E16 and E19 have not been able to solve employing problems with basic 

capabilities category mathematizing. In interview E16 said that she does not read problem 

correctly but for E19 still difficult in rounding. 

 
 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 106 

 

E16: 

 

E19: 

 
 

 Figure 6. Sample Results Subject E16 and E19 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.1.7 

 
 

Subject E14 (level 5) and E21 (level 4) capable of doing a matter of formulating with basic 

ability of communicating, mathematising, representation, reasoning and argument, devising 

strategies for problem solving, using symbolic, formal and technical language and operations, 

and using mathematics tools. Based on a review of the subject Employing E14 and E21 have 

been able to solve problems with basic capabilities of communicating, and representation. In 

the process of interpreting E14 and E21 are already solving problems with basic capabilities 

of communicating, mathematising, representation, using symbolic, formal and technical 

language and operations, and using mathematics tools. 

 

Examples of the work of E14 and E21 for number 3.2.4. For clarification they said that can 

not operate mathematical model in 3.2.4. 

 

E14: 

 

E21: 

 
 

 Figure 7. Sample Results Subject E14 and E21 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.2.4 

 
 

Subject E3 (level 1) and E20 (level 2) is already able to do the problems formulating with 

basic capabilities of mathematising, representation, reasoning and argument, using symbolic, 

formal and technical language and operations, and using mathematics tools. E3 and E20 able 

to solve employing problem only with basic capabilities of communicating. Based on a 

review of the process of interpreting the subject of E3 and E20 already solving the basic 

capabilities of mathematising, using symbolic, formal and technical language and operations, 

and using mathematics tools. 

 

For number 3.1.7 E3 and E20 have not been able to solve employing problem with basic 

capabilities category mathematizing. In interview process E3 said that still difficult with 

rounding but E20 not read corectly in this poblem. 

 

 

 

 

 

 



Volume 6, No. 2, September 2017 pp 95-110 

 
 

107 

 

Problem : Number 3.1.7 

Answer E3: 

 

Answer E20: 

 
 

 Figure 8. Sample Results Subject E3 and E20 for Employing Problems with 

  Basic Capabilities Category Mathematizing Number 3.1.7 

 
 

CONCLUSION 
 

Based on the result of data analysis, the conclusions are: 

1. The quality of learning with CTL model towards mathematics literacy for student grade 
XI of SMK categorized well. This is indicated in the preparatory phase learning device 

consultated to the supervisor through several revisions categorized good and can be used. 

At this stage of the process based on the observation of math teacher SMK NU Lasem 

good category. In the evaluation phase are two students reached level 1, 2 students at level 

2, 5 students at Level 3, 7 students on level 4, and 2 students at level 5. 
 

2. Literacy mathematical vocational students of class XI based on logical reasoning is: a) 
Students with high logical reasoning achieving level 4 and 5, good in formulating with 

communicating, representation, and devising strategies for problem solving, for 

employing with communicating, mathematising, representation, reasoning and argument, 

devising strategies for problem solving, using symbolic, formal, and technical language 

and operation, and using mathematics tools and fo interpreting with communicating, 

representation, and devising strategies for problem solving; b) Students with medium 

logical reasoning reached level 3, good in fomulating with communicating, representation, 

and devising strategies for problem solving, employing with communicating, 

representation, devising strategies for solving problems, and using mathematics tools, and 

intepreting with communicating, representation, dan reasoning and argument; c) Students 

with low logic at level 1 and 2, good in formulating, employing and interpreting with 

communicating. 
 

3. The ability of the mathematical literacy of students based on numerical reasoning is: a) 
Students with high numerical reasoning reaches level 5, good in formulating with 

communicating, representation, and devising strategies for problem solving, employing 

with communicating, mathematising, representation, reasoning and argument, devising 

strategies for problem solving, using symbolic, formal, and technical language and 

operation, and using mathematics tools, and interpreting with communicating, 

representation, and devising strategies for problem solving; b) Students with medium 

numerical reasoning was reached level 4, good in fomulating with communicating, 

representation, and devising strategies for problem solving, employing with 

communicating and using symbolic, formal and technical language and operations and 

intepreting with communicating, representation, dan reasoning and argument; c) Students 

with low numerical reasoning at the level of  2 and 3, good in formulating with dasar 

representation dan devising strategies for problem solving, and employing with 

communicating and representation. 
 

4. Ability mathematical literacy of students based on logical and numerical reasoning is: a) 
Students with high logical and numerical reasoning reached level 5, good in formulating 

with communicating, representation, and devising strategies for problem solving, 



Ni’mah, Junaedi & Mariani, Mathematical Literacy’s Vocational Students … 108 

employing with communicating, mathematising, representation, reasoning and argument, 

devising strategies for problem solving, using symbolic, formal, and technical language 

and operation, and using mathematics tools, and intepreting with communicating, 

representation, dan devising strategies for problem solving; b) Students with logical and 

numerical reasoning was reached level 3 and 4, good in formulating with communicating, 

representation, reasoning and argument, and devising strategies for problem solving, 

employing with communicating, and reasoning and argument, and intepreting with 

communicating, representation, dan reasoning and argument; c) Students with high logical 

and medium numerical reasoning and also medium logical and high numerical reasoning 

reached level 4 and 5, good in formulating with communicating, representation, and 

devising strategies for problem solving, employing with communicating, devising 

strategies for problem solving, using symbolic, formal, and technical language and 

operation, and using mathematics tool and interpreting with communicating, 

representation, reasoning and argument, dan devising strategies for problem solving; d) 

Students with low logical and numerical reasoning only in level 1 and 2, good in 

formulating with devising strategies for problem solving, employing with communicating, 

and interpreting with communicating, representation, and reasoning and argument. 

 

Logic and numerical reasoning affects student ability to think, calculate and understand the 

problem so that it also affects the ability of students' mathematical literacy. The ability of the 

mathematical literacy should be owned by all students in order to understand and solve 

problems appropriately in order to future challenges. 

 

Teachers should help strive for the achievement of these abilities. Teachers can use different 

ways to know and analyze students' literacy skills. One can develop instruments to analyze, 

measure, or identify students' mathematical literacy skills. In addition, teachers need to pay 

attention to these conditions in classroom learning activities. Different logical and numerical 

reasoning abilities allow different abilities of students' mathematical literacy. The ability of 

logical and numerical reasoning can be honed as well as the ability of mathematical literacy.  

 

Teachers attention to differences in students' logical and numerical reasoning abilities will 

have implications for the selection of appropriate learning models. Model selection should be 

tailored to the characteristics of students' abilities. Learning with the right model and quality 

is expected to provide increased mathematical literacy skills. 

 
 

 

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