Faculty of Information and Communication Technology

LEARNING CHEMISTRY USING 3D APPROACH: 3D ATOMIC CUBIC

Nuraziera Binti Mohd Hatta

Master of Science in Information and Communication Technology

LEARNING CHEMISTRY USING 3D APPROACH: 3D ATOMIC CUBIC

NURAZIERA BINTI MOHD HATTA

A thesis submitted

in fulfilment of the requirements for the degree of Master of Science

in Information and Communication Technology

Faculty of Information and Communication Technology

UNIVERSITI TEKNIKAL MALAYSIA MELAKA

DECLARATION

I declare that this thesis entitle “Learning Chemistry Using 3D Approach: 3D-Atomic

Cubic” is the result my own research except as cited in the references. The thesis has not

been accepted for any degree and is not concurrently submitted in candidature of any other

degree.

Signature : ………...

Name : NURAZIERA BINTI MOHD HATTA

APPROVAL

I hereby declare that I have read this thesis and in my opinion this thesis is sufficient in

terms of scope and quality as a partial fulfilment of Master of Science in Information and

Communication Technology.

Signature : ………..

Supervisor Name : DR. HJH. NORASIKEN BAKAR

DEDICATION

To my beloved father and mother,

En. Mohd Hatta Bin Md Lani and Pn. Norizah Binti Musa

Brother and Sisters,

Nor Shella, Nor Ihdayu, Muhammad Arif and Mohd Fauzi

For my supervisors,

Dr. Hjh. Norasiken Bakar and co-supervisor Prof Dr Faaizah Shahbodin

(UTeM)

Lastly to my beloved friends who are encouraged, guided and inspired me. Without their

patience, understanding, support and most of love, the completion of this work would not

ABSTRACT

This research is about the development of the 3D courseware named as 3D-Atomic Cubic as a tool for teaching and learning Chemistry subject. This 3D-Atomic Cubic courseware contains all multimedia elements used to attract students’ attention for learning the contents. This courseware is specifically developed for a topic in Chemistry subject for student of Mechanical Engineering in Universiti Teknikal Malaysia Melaka (UTeM). The questionnaire is the instrument used in this research to determine the problem statement. Based on the questionnaires, Properties of Matter topic is identify as the most difficult topic, because students need to understand and visualize the arrangement of the atom in Cubic Cell. One of their problems faced when learning this topic is student enable to imagine the arrangement of the atom easily. By using traditional approach, the visualization of the model is using two dimensional (2D) models, as a result student hard to imagine the real scenario. This research is focusing on delivery approach of learning by using three dimensional (3D) approaches in studying Chemistry subject. The advantages gained from this research can benefit the students, lecturers, education industry, high institution and also the public. The development methodology of 3D Atomic Cubic courseware was developed using life cycle of 3D Atomic Cubic that based on the ADDIE model. This methodology consist five phase represents a series of task that help to ensure the development efforts stay on tract, on time and on target. Completing each phase is an important element for the instructional design process. For the preliminary analysis, 52 students from the whole Mechanical Engineering students who already took Chemistry subject are involved in determining the difficult topic in Chemistry subject. For evaluation on the effectiveness of 3D-Atomic Cubic Courseware, 52 of Mechanical Engineering students from UTeM is involved and they are divided by two which are Conventional and Experimental Group. From the analysis of the result, both of conventional and experiment group showed an improvement but the student who use 3D-Atomic Cubic courseware get higher mark. This shows that 3D-Atomic Cubic courseware can be used as teaching aid material in classroom since it shows those students who use the courseware get better result. This research found that a 3D element is very useful in helping students to understand chemistry subject especially in visualizing the arrangement of the atom.

ABSTRAK

Kajian ini adalah tentang pembangunan perisian 3D yang dinamakan sebagai 3D-Atomic Cubic sebagai alat untuk pengajaran dan pembelajaran mata pelajaran Kimia . Perisian 3D-Atomic Cubic ini mengandungi semua unsur-unsur multimedia yang digunakan untuk menarik perhatian pelajar untuk mempelajari kandungan pembelajaran. Perisian ini dibangunkan khusus untuk salah satu tajuk yang terdapat dalam mata pelajaran Kimia bagi pelajar Kejuruteraan Mekanikal di Universiti Teknikal Malaysia Melaka (UTeM). Soal selidik adalah instrumen yang digunakan dalam kajian ini untuk menentukan pernyataan masalah. Berdasarkan soal selidik, tajuk Properties of Matter adalah dikenalpasti sebagai tajuk yang paling sukar kerana tajuk ini memerlukan pelajar untuk menggambarkan susunan atom dalam sel padu. Salah satu masalah yang dihadapi oleh mereka apabila belajar tajuk ini adalah pelajar tidak dapat membayangkan susunan atom dengan mudah. Melalui pembelajaran mengunakan pendekatan tradisional, visualisasi model itu menggunakan model dua dimensi (2D) sahaja, dan adalah sukar untuk pelajar membayangkan keadaan sebenar susunan atom di dalam sel padu. Justeru, kajian ini menumpukan kepada pendekatan penyampaian pembelajaran yang lebih baik iaitu dengan menggunakan pendekatan tiga dimensional (3D) dalam subjek Kimia untuk tajuk Properties of Matter. Kelebihan penyelidikan ini memberikan manfaat kepada pelajar-pelajar , pensyarah, industri pendidikan, Institusi tinggi dan juga kepada orang ramai. Metodologi Pembangunan untuk perisian 3D Atomic Cubic ini dibangunkan menggunakan Model Kitar Hayat 3D Atomic Cubic yang berasaskan kepada model ADDIE. Metodologi ini mengandungi lima fasa di mana setiap fasanya adalah untuk memastikan pembangunan perisian ini berjalan mengikut waktu yang ditetapkan dan sasaran yang dikehendaki. Melengkapkan setiap fasa juga adalah elemen penting untuk proses reka bentuk pengajaran. Untuk analisis awal , 52 orang pelajar dari Fakulti Kejuruteraan Mekanikal yang telah mengambil mata pelajaran Kimia terlibat dalam menentukan topik yang paling sukar di dalam subjek kimia. Untuk penilaian mengenai keberkesanan perisian 3D-Atomic Cubic ini, 52 orang pelajar Fakulti Kejuruteraan Mekanikal dari UTeM telah terlibat dan mereka dibahagikan dengan dua kumpulan iaitu kumpulan konvensional dan kumpulan kajian. Daripada analisis keputusan, kedua-dua kumpulan konvensional dan kumpulan kajian, telah menunjukkan perbezaan peningkatan dalam markah ujian yang diberikan, tetapi pelajar yang menggunakan perisian 3D-Atomic Cubic mendapatkan markah keputusan yang lebih tinggi. Ini menunjukkan bahawa perisian 3D-Atomic Cubic ini boleh digunakan sebagai bahan bantuan mengajar di dalam kelas kerana ia mampu menunjukkan kepada pelajar bahawa dengan menggunakan perisian 3D-Atomic Cubic tersebut mendapat hasil markah yang lebih baik. Kajian ini mendapati bahawa unsur-unsur 3D adalah sangat berguna dalam membantu pelajar untuk memahami mata pelajaran kimia terutamanya dalam menggambarkan penyusunan sesuatu atom.

ACKNOWLEDGEMENT

In preparing this thesis, I was in contact with many people, researchers, academicians and practitioners. They have contributed towards my understanding and thought. In particular, I wish to express my sincere appreciation to my thesis supervisor, Dr. Hjh. Norasiken Bakar, for her encouragement, guidance, critics and friendship. Thank you very much for shaping my view and my point in this thesis. I am also very thankful to my co-supervisor Prof Dr Faaizah Shahbodin for her guidance, advice and motivation. Without their continued support and interest, this thesis would not have been same as presented here.

I would like to thank my family, my parents En. Mohd Hatta Bin Md Lani, Pn. Norizah Binti Musa and all my sisters and brother for supporting me spiritually throughout my life. Not to forget, a big thanks towards members of Faculty of Information and Communication Technolgy (FTMK) and Faculty of Mechanical Engineering (FKM) for their kind cooperation and encouragement which help me in completion of this research. Special thanks goes to Dr Imran Syakir Mohamad, lecturer of Chemistry subject at Faculty of Mechanical Engineering (FKM), without his cooperation and guidance, this research cannot be smoothly done.

Finally, my thanks and appreciations also go to colleague in this research area, Nur sahidah Bashir, Asfarayani Mohd Zaki, Mohd Fauzi Ab Aziz, Munirah Shamsudin and people who have willingly helped me out with their abilities.

Lastly thank you very much to Universiti Teknikal Malaysia Melaka (UTeM) for giving me opportunity to be part of them and completing my master degree.

TABLE OF CONTENT

1.3 Research Problem Statement 4

1.4 Research Questions 4

1.10 Research Theoretical Framework 8

1.10.1 Stage 1: Identify the Problem 8

1.10.2 The Development of 3D Atomic Cubic Courseware 8

2.2.5 Graphic 18 2.2.6 Implication Of Elements in Multimedia On 3D-Atomic

Cubic 18

2.3 Learning Technique 19

2.3.1 Visual Learning Technique 19

2.3.2 Brain based Learning 20

2.3.3 Mnemonics 22

2.3.4 Implication Of Learning Technique On 3D-Atomic Cubic 23

2.4 Multimedia in Education 23

2.4.1 Two Dimensional Approach in Education 24

2.4.2 ThreeDimensional Approach in Education 24

2.4.3 Implication of Mulitmedia in Education 25

2.5 Courseware Development Model in Education 26

2.5.1 ADDIE Model 26

2.5.2 Waterfall Model 27

2.5.3 Dick & Carey 28

2.5.4 Model for 3D-Atomic Cubic 29

2.6 Existing System 30

2.6.1 Case Study 1: Lines and Planes in 3-Dimensional

Courseware 30

2.6.2 Case study 2: Exploration of Solar System 33

2.6.3 Case study 3: 3D Tool For Teaching Chemical Reactions 36

2.6.4 Case study 4: 3D-EmT Courseware for Electromagnetic

Theory Subject 37

2.6.5 Comparison of The Study Case 40

2.6 Summary 40

3. METHODOLOGY 42

3.1 Introduction 42

3.2 Research Methodology 42

3.2.1 3D-Atomic Cubic Development Methodology 42

3.2.2 3D-Atomic Cubic Effectiveness Testing Methodology 45

3.2.2.1 Research Design 45

3.6.1 To Identify the Various Element of Multimedia to 55

Support 3D Atomic Cubic

3.6.2 To Develop a 3D-Atomic Cubic Courseware 56

3.6.3 To Evaluate the Effectiveness of Teaching by Using

5.2.1 Student’s Performance Analysis based on Hypothesis H01, H02 and H0385 86

5.3 Student’s Acceptance of 3D Approach in 3D-Atomic Cubic 88

5.3.1 Student’s Acceptance Towards the Learnability Using 3D-Atomic Cubic Courseware 89

REFERENCES 100

APPENDICES 108

LIST OF TABLES

TABLE

TITLE PAGE

2.1 The Comparison Of The Existing System 40

3.1 The mean of subject difficulties according to students and lecturers 49

3.2 Test Cases and Description for Subject Matter Expert 50

3.3 Test Cases and Description for lecturers 51

3.4 Test Cases and Description for Students 51

3.5 Cronbach Alpha for reliability of 3D-Atomic Cubic 52

3.6 Testing Evaluation Design 54

3.7 Frequency of participants and the percentage of perception on 59

3D-Atomic Cubic courseware

3.8 Hardware Requirement for development platform 60

5.1 Pre and Post Test Result for Control Group 81

5.2 Pre and Post Test Result for Experiment Group 82

5.3 Post Test Mean for Control and Experimental group 83

5.4 Marks Distributions for Control and Experimental Group in the Post 84

5.5 Mean, SD and t-test for Pre-test and Post-test for Control Group 86

5.6 Mean, SD and t-test for Pre-test and Post-test for Experiment Group 87

5.7 Mean, SD and t-test for post-test for Control and Experimental 88

5.8 Frequency of participants and the percentage of Learn ability 89

5.9 Frequency of participants and the percentage of perception on 3D- 90

Atomic Cubic Courseware

LIST OF FIGURES

FIGURE TITLE PAGE

1.1 Research Theoretical Framework 10

2.1 Multimedia Elements 16

2.2 Visual Diagram of Thinking and Learning 20

2.3 Visual Diagram of Brain Based Learning 21

2.4 Upper Part Of Brain 22

2.5 ADDIE Model 26

2.6 Waterfall Model 28

2.7 Dick And Carey Model. 29

2.8 ADDIE Model For 3D-Atomic Cubic 30

2.9 Home Page (Main Screen) 31

2.10 Identifying Planes Module 32

2.11 Sketching 3-Dimensional Shape Module 32

2.12 Visualize 3D Module 33

2.13 Title Page 34

2.14 Main Menu Module 34

2.15 Learning Module 35

2.16 Simulation Module 35

2.17 3D Structure For Ethane And Propane 36

2.18 3D Structure For Pentane And Isopentane 36

2.19 3D Structure For Trans-2Butene And Cis-2-Butene 37

2.20 Note Module In 3D-Emt Courseware 38

2.21 Tutorial Module In 3D-Emt Courseware 38

2.22 3D Model 39

3.1 ADDIE Model 43

3.2 Research Methodology 46

3.3 Research Design 53

3.4 Testing Model for Research Question 3 58

4.1 Life cycle of 3D-Atomic Cubic 63

4.2 Analysis Phase 64

4.3 Design Phase 66

4.4 Instructional Design Model 67

4.5 3D-Atomic Cubic Module 67

4.6 Features in Explore 3D-Atomic Cubic 68

4.7a Notes for Simple Cubic 69

4.7b Notes for Body Centered Cubic 69

4.7c Notes for Face Centered Cubic 70

4.8a Interactive Video of Cubic cell 70

4.8b Interactive Video of Cubic cell 71

4.9a 3D simulation of Cubic cell 71

4.9b 3D simulation of Cubic cell 72

4.10 Features of Past Year Module 72

4.11 Features of Interactive Mind Map 73

4.12 Features of Revision Module 74

4.13 Features of Tutorial Module 75

4.14 Development Phase 76

4.15 Implementation phase 77

4.16 Evaluation phase 78

5.1 Histogram for Control and Experimental Group 85

5.2 Frequency for Control and Experimental Group 85

LIST OF ABBREVIATIONS

ADDIE Analysis, Design, Development, Implementation,

Evaluation

ICT Information & Communication Technology

SPSS Statistical Package for Social Science

2D 2- Dimensional

3D 3- Dimensional

CD Compact Disc

FKM Faculty of Mechanical Engineering

UTeM Universiti Teknikal Malaysia Melaka

CAL Computer Aided Learning

LIST OF APPENDICES

APPENDIX TITLE PAGE

A Questionnaire of Level Difficulties 108

B _{Questionnaire on Identifying Difficult Topic 110}

C _{Sample Storyboard for Research Prototype 113}

D Pre-Test Questions 114

E Post-Test Questions 121

F Pilot Study 128

G SPSS Result for Ho1,Ho2,Ho3 and t-test 132

H List of Expertise 134

I Action Script 3.0 Coding Import Class Package (Example 1) 135

J Action Script 3.0 Coding Open 3D Simulation (Example 2) 136

LIST OF PUBLICATIONS

Hatta N.M., Bakar N. (2010).“Development and effectiveness of 3D Visualization

Courseware” Proceeding of Kolokium Universiti Teknikal Malaysia Melaka 2010, UTeM,

Malaysia, 10 November 2010.

Hatta N.M., Bakar N. (2011). “3D Design of Chemistry Subject in UTeM: The Cubic

Atom” Proceeding of National Conference on Active Learning 2011 (NCAL 2011),

UTeM, Malaysia, 10-11 November 2011.

Hatta N.M., Bakar N. (2011). “3D Design of Chemistry Subject in UTeM: The Cubic

Atom” Malaysian Journal of Educational Technology Volume 12, Number 4, December

2011.

Hatta N.M., Bakar N., Salam S., Shahbodin F. (2012). “3D Approach in the Development

of Chemistry Subject at UTeM: Atom Cubic” Proceeding of International Conference on

Active Learning 2012 (ICAL 2012), UTeM, Malaysia, 18-20 September 2012.

CHAPTER 1

INTRODUCTION

1.1 Introduction

Chemistry is one of the compulsory subjects for all undergraduate students in science

related fields. There are a number of methods to deliver chemistry lessons especially in classes

of basic molecular formation theories. Throughout the years, various teaching methods have

been adopted to assist student to better understand in learning. Computer based learning has

become popular in Malaysia and the usage of Information Communication Technology (ICT)

tools in Malaysian education system are meant to support the learning and teaching process in

class (Honarmand, 2011; Hamidi, 2011; Ghavifekr 2012).

In educational field, information technology can be use to collect, save, process, and

convey information quickly and correctly like internet, or multimedia or hypermedia in

teaching and learning process (Nusir, Alsmadi, Al-kabi, & Sharadgah, 2012). The use of

computer technology in teaching and learning process is not to replace the function of teacher

but to create an interesting, effective, and meaningful teaching and learning atmosphere to

student (Sanga, Africa, & Venter, 2006). Teaching and learning style in the 21st century still

based on student but the teacher play the most important role to let student actively involved in

learning activities (Tarmizi, Zah, Ali, Yunus, & Bayat, 2012).

Teaching and learning based on computer had grown and the latest innovation is

multimedia field (Mukti, Zaman, Mohd, & Sembok, n.d., 1999). Multimedia technology has

expended the usage of computer from information processing tools to teaching tools.

According to Halimah (1999), multimedia technology has ability in delivering text, video,

sound, animation and high resolution graphic. An information delivery effect created by

combination of images, texts, and sounds has shown the significance everlasting compared to

listened or read (Trindade, 2003). Combination of these elements will create an interesting

presentation and make the information conveying more meaningful. Teaching media that using

multimedia technology are able to get the student’s attention, get the idea, and gain the

complex information and help to prevent lack of time, size and space. Computer-based

teaching media that has interactive or linear movement can able the user to access the

information from one segment to another without following the flow.

The growing number of “multimedia study” classroom exemplifies the trend towards

Multimedia technology in Education (Sanga et al., 2006). Besides using the conventional

computer-based training techniques, courseware has included multimedia capabilities, such as

graphics, sounds, animation, and video clips. This paper illustrates the development of such

multimedia courseware. Additionally, this courseware employs sound instructional and

learning strategies, thereby making the courseware not only educational, but also captivating.

The other unique feature of the courseware is its adaptability. Teachers who are not computer

experts can use the “Lecturer” module to modify and add content to the courseware. By

selecting the predefined objects, and or filling in a form, the teachers can create simple

animation by using the module.

1.2 Research Background

This research highlights the development of 3D approach in learning chemistry subject.

This research is trying to use the learning based on computer for 3D concept in chemistry

subject. Learning in conventional approach often use the whiteboard and textbook that only

shows text and graphic to show the arrangement of the atoms in cubic cells (Oke & Alam,

2010). The arrangement of the atoms in the cubic cells are required learners’ knowledge and

metal image, so by using 3D technology approach is possible to applied to assist learners in the

topic. This research addresses the impact of using 3D approach in teaching and its advantages

over current approach. Besides, 3D model can be rotated around any axis, panned or zoomed

in any direction (Li-hong & Xia-mei, 2009). By using the approach of 3D viewing, students

are able to position and recognize the object with relation to others scene, enabling a better and

more complete visualization and interactive learning process (Bingimlas, 2009). This research

is trying to use the learning based on computer for 3D concept in chemistry subject. This

research will increase students and lecturer in visualizing the topic much more better. In other

word, educational level will be increase parallel with the information technology (Pan, Han,

Wu, & Zhang, 2010). Therefore, learning based computer is build to increase the efficiency the

student ability of visualization with the aid of multimedia elements (Hasana & Ishak, 2012).

Beside, 3D model atom assists learners to gain more understanding in molecular structure.

Computer based multimedia material offers different means of supporting 3D

information representations (Honarmand, 2011; Noordin, Fatimah, Ahmad, & Hooi, 2011;

Osman, Azan, & Mat, 2010). Viewing dynamic and 3D animations is assumed to be a possible

way of changing and improving students’ incomplete mental models (Sulaiman & Iskandar,

2008). Nevertheless, based on various researchers (Dafoulas & Loomes, 2012), it is found that

3D models may lead to cognitive overload problems in hypermedia-learning environments in

particular, as such environments are assumed to generate a heavy cognitive load. On the other

hand, the findings of Ferk (2003), research revealed that some representations of molecular 3D

structure are better understood and can be more readily used by students in solving tasks of

different complexity. To all students the concrete representations seem to be more useful than

abstract representations.

There has been interest expressed in science education reform which emphasis the need

for integrating computer technologies into learning and teaching. Computer also may be

effective in other areas as a general pedagogical aid that complements regular teaching

methods. ICT can serve as a tool for designing new learning environments, integrating virtual

models and creating learning communities. Learning courseware offers an effective tool for

education since it involves all the senses, giving a modifiable three dimensional (3D)

environment emulating and overcoming reality (Hasana & Ishak, 2012). Multimedia

courseware is believed as the most appropriate way to encounter student’s problem in

visualization. In Malaysia context, the use of multimedia courseware in classroom is actually

taking the concept and advantages provided by the computer aided learning (Hasana & Ishak,

2012; Noordin, Fatimah, Ahmad, & Hooi, 2010).

The term teaching refers to the methodology or strategies chosen in arranging the

information, activities, approaches or media in order to help the students achieve the objective

stated earlier (Korakakis, Pavlatou, Palyvos, & Spyrellis, 2009). Learning is the change in

behavior in the students that occurs because of their interaction with the surrounding (Yahya &

Latif, 2008). So by using computer enhance the learning environment making the learning

more practical, improving the learner’s access to learning, increasing the focus of higher order

skills. Other than is to make possible to adapt learning programme more nearly to the needs of

individual. One way of teaching for understanding is to have students engage in information

processing and problem solving activities that focus on real-world experience, and daily-life

chemistry.

1.3 Research Problem Statement

The research problems was identified according to result from the preliminary analysis.

From the result analysis, found that one of the problems when student learn chemistry is

students do not understand the topic well because it needs students to imagine the formation of

the structure of the atoms and their arrangement (Hasana & Ishak, 2012; Mbendera & Sun,

2010). Each people have a different ability to learn and capture the information and it is related

to their learning style which is defined as the way a person takes and process the knowledge.

By including 3D element in this courseware, it is use to stimulate student’s interest in some

content of the learning and as a supplement to classroom teaching, the graphics and animation

make the subject come alive, so that learning the subject is much easier, animation, voice and

video clips are used to implement various teaching strategies such as tutorials, activities and

games. The ability to visualize has enable the student to understand the topic better (Bingimlas,

2009). Besides that, the simple animation can be use in this courseware to make the learning of

content in the class more interactive. The development of computer technology multimedia

methods are been increasingly used in teaching practice. A multimedia courseware are able to

combine sound and pictures with knowledge (Dafoulas & Loomes, 2012; Hasana & Ishak,

2012). This reinforces the fact that students retain 50% of what they see and hear, as the use of

multimedia technology gives students more information than just writing on the blackboard

and increase the chance of active learning (Chou & Liu, 2005).

Most students find the traditional way of studying is boring and uninteractive. When

there are useless, the teacher gives information or if when the learning is teaching by using

projector, the light in the classroom is too dim. To avoid these disadvantages the teacher can

combine it with other strategies and gives students more opportunity to think and ask

questions. According to Lagowski, students retain 10% of what they read, 26% of what they

hear, 30% of what they see, 50% of what they see and hear, 70% of what they say and 90% of

something they say as they do something. So if the teacher shows as many demonstrations as

they can in this interactive courseware to the student as well as letting the student do the

demonstration by them, the student will learn more actively and effectively.

1.4 Research Questions

This study investigates the use of the 3D-Atomic Cubic Courseware as an alternative

tool in the learning process. Besides that, this research examines the student’s satisfaction and

their acceptance on the use of 3D approach for the Chemistry subject. In order to achieve the

research objectives, several questions have been formulated:

RQ1: What is the suitable elements of multimedia that will give better visualizing for

student to learning chemistry subject?

RQ2: What is the suitable method on developing courseware that will give better

visualizing for student to learning chemistry subject?

RQ3: How does the 3D approach will affect the imagination of the students about the

structure of the atoms in cubic cell on chemistry subject?

RQ4: Is there any effective in terms of student perception when using interactive

3D-Atomic Cubic in subject of Chemistry visualization?

1.5 Research Objectives

The main purpose of this research is to measure the effectiveness of 3D approach in the

learning process of 3D-Atomic Cubic subject in Chemistry. There are four objectives to be

accomplished in this research:

i) To identify the various elements of multimedia to support 3D-Atomic Cubic.

Elements of multimedia acting as delivery methods to present 3D-Atomic Cubic

courseware for help learner to a deeper understanding through supporting

conceptualization and contextualization of the new material being presented.

ii) To develop interactive 3D element.

As an assisting teaching and learning tool for lecturer and student because will be

provided with interactive 3D element in the module for help student easy to visualize

the structure of the atom in each type of cubic cell.

iii) To evaluate the effectiveness of teaching by using 3D element approach in learning of

Chemistry subject through a case study with Mechanical Engineering students of

Universiti Teknikal Malaysia Melaka (UTeM).

The current style of study is still using traditional method which is using text and book.

This research is to show the effectiveness of using new approach in studying

Chemistry subject for FKM students in UTeM.