Development of Learning Tools Oriented Problem Based Learning Models Assisted by Macromedia Flash to Improve Mathematics Literacy Ability of Class X High School Students

This research aims to: Analyzing the validity, practicality, and effectiveness of learning tools oriented towards problem-based learning models assisted by macromedia flash that was developed to improve students' mathematical literacy skills. The ability of mathematical literacy using the developed learning device increased, in terms of the N-Gain Score The Mathematics Literacy Ability Test increased in Trial I reaching 0.38, increasing to 0.43 in Trial II and increasing to 0.51 at the deployment stage.


LITERATURE REVIEW The Nature of Mathematics Learning
Simple learning can be interpreted as an attempt to influence one's emotional, intellectual, and spiritual so that they want to learn with their own will (Nata, 2009: 85) [7] . Meanwhile, according to Sagala (2009: 62) learning as a learning process is built by the teacher to develop thinking creativity that can improve students' thinking abilities and can improve the ability to construct new knowledge in an effort to increase good mastery of the subject matter [10] .
So it can be concluded that the nature of mathematics learning is a learning process that is built by the teacher to improve mathematical abilities in solving mathematical problems that involve in everyday life and can improve thinking abilities, creativity abilities, ability to construct knowledge and problem solving abilities

Learning Media
Learning material or learning material, is teaching material that is packaged as material to be presented in the learning process. Learning tools needed in managing the teaching and learning process can be in the form of: syllabus, Learning Implementation Plan (RPP), Student Activity Sheet (LKS), Evaluation Instrument or Learning Outcomes Test (THB), learning media, and student textbooks (Trianto, 2010: 201) [15] .

Mathematical Literacy Ability
Literacy is an absorption of the English word "literacy" which means literacy or the ability to read and write. According to the 2015 PISA draft assassment, PISA defines mathematical literacy abilities as follows, "Mathematical literacy is an individual's capacity to formulate, employ, and interpret mathematics in a variety of contexts. It includes mathematical reasoning and using mathematical concepts, procedures, facts and tools to describe, explain and predict phenomena. It assists individuals to recognize the role that mathematics plays in the world and to make the well-founded judgments and decisions needed by constructive, engaged and reflective citizens. " [8] (OECD, 2013: 25).  Ojose (2011: 89) argues that mathematical literacy is knowledge to know and use the basis of mathematics in everyday life [9] . Problem Based Learning Model Bahriah (2015: 15) says that problem-based learning model is one of the learning models that presents contextual problems that can stimulate the creativity of students to find concepts and solve problems in everyday life [3] . According to Dewey (in Trianto 2009: 91) "learning based on problems is the interaction between stimulus and response, is the relationship between two directions of learning and the environment". Gagne (in Ashyar, 2012: 45) states that the media are various types of components in the student environment that can stimulate them to learn. According to Suparman (in Sutikno, 2013: 31) media is a tool used to channel messages or information from the sender to the recipient of the message [13] . From the description above it can be concluded that the media is a tool used to convey information from one person to another so that it can stimulate one's thoughts, feelings and interests.

Macromedia Flash Learning Media
According to Jayadi (2008: 37) Macromedia Flash is a software program that presents audiovisual messages Journal of Education and Practice www.iiste.org ISSN 2222-1735 (Paper) ISSN 2222-288X (Online) Vol.11, No.15, 2020 clearly to students and material that is real, so that it can be illustrated more attractively to students with a variety of animated images that can stimulate student interest in learning to achieve learning goals [6] . Furthermore according to Prasetio in Cahyo (2013: 52) Macromedia Flash is an animation software that can be used to facilitate the delivery of an abstract concept in its application using a computer and media imager projector [4] .

RESEARCH METHOD
This study uses the Thiagarajan 4-D development model (define, design, develop, and disseminate). This development is carried out to produce problem-based learning tools assisted by Macromedia Flash which will then be tested in class using The One-Group Pretest-Posttest Design, by not using a comparison class but using Pretest so that the magnitude of the increase in students' Mathematics Literacy ability can be known with certainty. This research will be conducted at SMA Negeri 1 Kualuh Hulu located in Aekkanopan, Labuhanbatu Utara in class X science 2 and X science 3 odd semester 2019/2020 Academic Year.

RESULTS
This research is a development research (development research). The product developed in this study is a learning device so that it meets valid, practical and effective criteria. The learning tools developed include the lesson plan (RPP), teacher's book (BG), student's book (BS), and student activity sheets (LKPD). Learning tools were developed using the 4-D development model from Thiagarajan. which includes four stages, namely definition, design, development and dissemination Mathematical Literacy Ability of students can be seen from the ability of students in mathematical literacy of students based on PISA levels which are divided into 6 levels or 6 levels. The analysis of the results of mathematical literacy ability Test I based on each level of mathematical literacy ability is shown in the following figure. Figure 2 above the average mathematical literacy ability shows that there is an increase in each level of mathematical literacy ability.The highest increase is 1 and 6 which is at level 6 namely: Using reasoning in solving mathematical problems, can make generalizations, formulate and communicate the findings. While the lowest increase is at level 2, 1.

Figure 2. Average of each Level of Mathematics Literacy Ability in Trial I From
Furthermore, the results of completeness of students' mathematical literacy skills in the first try can be seen in Table 1. As for the second trial, the analysis of the results of the ability of mathematical literacy Test II based on each level of mathematical literacy ability is shown in the following figure.

Figure 3. Average of each Level of Mathematics
Literacy Ability in Trial II From Figure 3 above the average mathematical literacy ability shows that there is an increase in each level, it can be seen that from the average mathematical literacy ability, it shows that there is an increase in each level of mathematical literacy ability. Furthermore, the results of completeness of students' mathematical literacy skills in the second trial phase can be seen in Table 2  Table 2

. Completeness Level Pre-Test and Post-Test Mathematical Literacy Ability in Phase Deployment of Trials II
From table 2 above it can be seen that the classical completeness of mathematical literacy skills in the pretest at the trial phase IIis as many as 12 people out of 36 people (33.33%) with a class average of 65.9, while the classical completeness of students' mathematical literacy skills in the post-test deployment stage is as much 33 people out of 36 people (91.67%) with a class average of 83.2.

Classical Mathematical Literacy Capabilities Achieved
The following will describe the percentage of students who achieved completeness for each meeting in trial I, trial II and the stages of deployment in table 2 below.  Table 3 above can be seen that in the first trial, the average Post-test mathematics literacy ability of students was 78.8 with the percentage of students who achieved a value of 80.56%. The results obtained do not meet the established classical achievement criteria, i.e 75 85%. From the learning process that is observed and the students' activities in solving the given problem, it is used as a reference to the revision of the learning device for trial II. Furthermore, the average Post-test mathematics literacy ability of students in the second trial

Average of each Level of Mathematics Literacy Ability in Trial II
was 81.0with the percentage of students achieving grades of 88.89%. From these results it appears that the classical achievement criteria have been met. 75 Furthermore, the average Post-test mathematics literacy ability of students at the deployment stage was 83.2 with the percentage of students achieving grades of 91.67%. From these results it appears that the classical achievement criteria have been met. 75