The Influence of Mobile Learning Toward 10th Graders’ Test Score
Abdul Halim Wicaksono
Universitas Negeri Malang, Malang, Indonesia
Keywords: Learning, Test Score, Mobile Learning
Abstract: Embracing technology in learning and education is needed to answer the challenge of this era. Mobile learning
approach is one of a kind. Technology allows student to learn anywhere and anytime. Using mobile learning
is considered to improve students’ learning outcomes. The purpose of this study is to know about different
learning outcomes between mobile learning approach and conventional approach, specifically in the test
score. This study is quantitative pre-experimental design research, and the design uses One-Shot Study Case
method. The subject of this study is 10th grade students of SMA Panjura Malang. 15 students in experimental
group and 15 more in control group. The results showed that there was no significant difference from the
utilization of mobile learning to 10th graders’ test score. The student can still finish their test with the same
result. Thus, mobile learning can still be considered as an alternative learning approach, but not much different
with conventional learning in terms of test score.
1 INTRODUCTION
Studies show that the education world faces a great
challenge to change and use variations of learning
that fit the current development. The 21st century
students’ needs and characteristics has been
drastically changed. Traditional learning approaches
make learners consuming passive content that there
must be a change, or at least complemented by a more
interactive and creative learning process (Jovanovic,
Chiong and Weise, 2012). Thus, an adaptation of
modern technology in education is needed to answer
this challenge.
The way to answer this challenge is embracing
technology to learning. There are a lot of new
innovations today in combining learning and the
latest technology. For example, mobile learning.
Mobile learning is learning across multiple context,
through social and content interaction, using personal
electronic devices (Crompton, 2013). Mobile
learning is a form of distance education that use
mobile device like smartphone, PDA, tablet and other
electronic devices to bring learning more accessible.
The use of internet and smartphone in Indonesia
has been very familiar. Digital Research Institute,
eMarketer, estimates the active user of smartphone in
Indonesia in 2018 will be more than a hundred million
users (Rahmayani, 2015). More specifically, the
Indonesian Internet Service Providers Association
(Asosiasi Penyelenggara Jasa Internet Indonesia,
abbreviated APJII) mentioned that the total of internet
users has reached 54.68% of the total population of
Indonesia, mostly by using smartphone (Asosiasi
Penyelenggara Jasa Internet Indonesia (APJII),
2017). Besides, APJII (2017) stated that 49.42% of
the total users are 19-34 years old, the school and
productive age.
By the availability of resources, familiarity of the
internet, and also smartphone and majority of
Indonesian teenager who cannot be separated today,
mobile learning is considered to be well applied in
Indonesia. Mobile learning could be a problem
solving to the characteristic of Indonesian students.
Mobile learning is seen as a new alternative of
learning model in Indonesia.
Some previous studies regarding mobile learning
showed that mobile learning brings out some positive
impacts. Hwang & Chang, who researched about a
formative assessment-based mobile learning
approach to improve the learning attitudes and
achievements of students found that the proposed
approach not only promotes the students’ learning
interest and attitude, but also improves their learning
achievement (Hwang and Chang, 2011).
(Wang et al., 2009) on his research entitled “The
impact of mobile learning on students' learning
behaviours and performance: Report from a large
blended classroom” found that mobile learning is
Wicaksono, A.
The Influence of Mobile Learning Toward 10th Graders’ Test Score.
DOI: 10.5220/0008406900050009
In Proceedings of the 2nd International Conference on Learning Innovation (ICLI 2018), pages 5-9
ISBN: 978-989-758-391-9
Copyright
c
2019 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
5
much better to enlarge students in the learning
process. Students in this class changed from passive
learners to truly engaged learners who are
behaviourally, intellectually and emotionally
involved in their learning tasks. Besides, Nassuora
who study about student acceptance of mobile
learning in higher education in Saudi Arabia found
that the acceptance level of student on mobile
learning is on the high level (Nassuora, 2012). The
researcher surveyed 80 students and half of that were
not familiar with mobile learning, but still had a good
perception.
To be noted that those studies were not conducted
in Indonesia. In other words, there are so much
difference in the settings and characters. Then, by the
availability of resources and chances to utilize mobile
learning, is mobile learning truly fit the education of
Indonesia? Many researches on mobile learning
conducted in Indonesia, yet no one has investigated
the influence of mobile learning. Mostly about the
development of mobile learning media to solve the
school problem, with no continuance. Therefore, the
researcher is willing to conduct a research regarding
the interference of mobile learning compared to
conventional method in Indonesia, specifically on the
interference of mobile learning toward learning
achievement.
2 METHOD
This study has been conducted using pre-
experimental design with One-Shot Study Case
design. The class was divided into 2 groups,
experimental group (i.e. treated with mobile learning)
and control group (i.e. treated with conventional
method). Both groups were given a pre-test to
understand the initial state. Then, the treatment was
given to each group. At the end of the study, they
were given a post-test to measure the achievement.
2.1 Step
The initial step is identifying the problems and
objectives. The researcher was visiting SMA Panjura
to find the problems through observation and teacher
interview. At this step, the researcher evaluated
whether mobile learning could be applied.
Then, the researcher analysed the core
competence needed by the subjects. The subjects
should be able to operate mobile learning resources
(i.e. smartphone, internet) and have the prior
knowledge of the material given. The fruitfulness of
the study truly depends on those things.
On the next step, the researcher prepared the
learning material, such as, mobile learning, lesson
plan, and pre-test and post-test based on the
identification of the problems and objectives, and the
core competence of the subjects. The researcher
tested the validity and reliability of the material. If
some weaknesses found, the researcher would
evaluate and tested it back to meet the standard.
The subjects were 30 10th grader students who
have the same level. The researcher divided them into
2 groups, 15 students in the experimental group, and
15 students in the control group. The data collection
was begun with pre-test. Then, the subjects were
treated based on the group. At the end, post-test was
given to evaluate their achievement. The data was
being statistically analysed by the researcher. Figure
1 is a flowchart that describes the step-by-step
research.
Figure 1: Flowchart step by step research.
Identifying Problem and Purpose of the Study
Analyzing Basic Competencies
Preparation of research material
Test of research materialGroup determination
Revision of research
material
Experimental
Group
Control
Group
Pretest
Treatment
Post-test
Data Analyzing
Conclution
ICLI 2018 - 2nd International Conference on Learning Innovation
6
2.2 Time and Place
The research was carried out about four months.
Starting from February to May 2017. The location is
SMA Panjura Malang, Indonesia. And the sample is
10th grade high school students.
2.3 Analysis Technique
After collecting the data, the researcher analysed the
data again to conclude the result of the study. On this
study. The analysis began with the pre-requisite test.
The pre-requisite test analysis is needed to know
whether the hypothesis testing could be carried on,
and whether the data was valid and reliable.
The pre-requisite test includes normality and
homogeneity test. Normality test is a test conducted
with a purpose of assessing whether the data
distribution in a group of data or variable is normal.
The normality test in this study used Komlogorof-
Smrinov (K-S) test with a significance α = 0.05.
Meanwhile, the homogeneity test is a test regarding
the variances of two or more distributions. In this
study, the homogeneity test used Levene’s test with a
value g f α = 0.05.
After that, the researcher analysed the data with
hypothesis testing. The hypothesis testing used 2-
tailed independent sample t-test. The significance α =
0.05. The result of the hypothesis testing would later
conclude the result of the study.
The step of analysis technique used by the
researcher is shown on Figure 2.
Figure 2: Analysis technique outline.
3 RESULT AND DISCUSSION
The result of the pre-test can be seen in the Table 1.
Table 1: This caption has one line so it is centered.
Minimum
Score
Maximum
Score
Mean
Experimental
Group
60
90
71.33
Control Group
40
90
76.00
Based on the Table 1, the control group has a
better mean score than experimental group with
76.00. The maximum score for both are 90. While by
the minimum score, the experimental group has a
higher score with 60. Based on the data, there are such
differences on initial state of both groups, but not that
significance. So, the study could still be continued.
After giving the treatment and post-test, the following
result are found.
Table 2. Post-test result descriptive statistics.
Minimum
Score
Maximum
Score
Mean
Experimental
Group
50
90
72.33
Control Group
45
90
78.67
The mean score of the control group is still better
than the experimental group by 72.33 compared to
78.67. The maximum score stays the same, 90 for
both. Then, the minimum score of the experimental
group stays higher compared to the control group by
50,
Based on both pre- and post-test, the initial state
of the subjects before and after treatment has no
significant difference. The control group stays better
on mean score either on pre- or post-test. The
experimental group stays higher on the minimum
score. The maximum score stays constant at 90. The
result indicates that no significance difference of two
applied method. But, the hypothesis testing could still
be done to the data to have a more reliable conclusion.
Thus, to continue testing the hypothesis, the data
should pass the pre-requisite test. First, normality test.
The normality test in this study used Komlogorof-
Smrinov (K-S) test with significance α = 0,05. The
first normality test had been done to the pre- and post-
test result of the experimental group. The result
shown at Table 3.
Table 3: Normality test result experimental group.
Pretest-
experiment
Postest-
experiment
N
15
15
Normal
Parameters
a,b
Mean
71.33
72.33
Std.
Deviation
10.259
10.499
Absolute
.265
.145
Positive
.265
.133
Negative
-.135
-.145
Test Statistic
.265
.145
Asymp. Sig. (2-tailed)
.200
c.d
.200
c.d
a. Test distribution is normal.
b. Calculated from data
c. Liliefors significance correction
d. This is a lower bound of the true significance
The Influence of Mobile Learning Toward 10th Graders’ Test Score
7
In the Table 3, shows that normality score on Sig
(2-tailed) for pre-test and post-test from experimental
group are 0.200. If Asymp. Sig (2-tailed) more than
0.05 or equal, data distribution are normal. Which is
means in this case, the data of pre-test and post-test
experimental group have normal distribution. Table 4
shows the result of normality test for pre-test and
post-test control group.
Table 4: Normality test result control group.
Pretest-
control
Postest-
control
N
15
15
Normal
Parameters
a,b
Mean
76.00
78.67
Std.
Deviation
12.564
11.412
Absolute
.183
.244
Positive
.133
.160
Negative
-.183
-.244
Test Statistic
.183
.244
Asymp. Sig. (2-tailed)
.188
c
.200
c.d
a. Test distribution is normal.
b. Calculated from data
c. Liliefors significance correction
In the Table 4, shows that control group normality
score on Sig (2-tailed) for pre-test are 0.188 and post-
test are 0.200. Same like before if Asymp. Sig (2-
tailed) more than 0.05 or equal, data distribution are
normal. Which is means in this case also, the data of
pre-test and post-test control group have normal
distribution.
After we know that all data have normal
distribution, next is homogeneity test. The test for
homogeneity determines if two or more populations
have the same distribution of a single categorical
variable. In this study, the test using Levene’s test
with value g f α = 0,05. Table 5 shows the result of test
for homogeneity pre-test and post-test.
Table 5: Result test of homogeneity for pre-test.
Lavene Statistic
df1
df2
Sig.
.005
1
28
.944
Table 6: Result test of homogeneity for post-test.
Lavene Statistic
df1
df2
Sig.
.029
1
28
.866
In the Table 5 and Table 6, shows that Sig (2-
tailed) for pre-test are 0.944 and post-test are 0.866.
If Sig more than 0.05 or equal, then data are
homogeneous. So, data of pre-test and post-test are
homogeneous and hypothesis test can be done.
After the data pass all prerequisite test, the next is
hypothesis test. This is to examine differences in
learning outcomes between experimental groups that
use mobile learning and control groups that use
conventional learning with ordinary teachers.
Hyphothesis test using 2 tailed independent sample t
test. The formulation of the hypothesis is as follows:
H0 : There’s no significant difference from using
mobile learning to the learning outcomes for 10th
graders.
H1 :There’s significant difference from using
mobile learning to the learning outcomes for 10th
graders. The results are shown in Table 7.
Table 7: Result of independent sample test.
Group
Sig. (2-tailed)
Mean
Posttest
Experiment
0.125
72.33
Control
0.125
78.67
Table 7 shows the number of significance
obtained is 0.125. And it’s greater than 0,05. Then,
H0 is accepted. Conclusion is there’s no significant
difference from using mobile learning to the learning
outcomes for 10th graders. Mobile learning can still
be considered as an alternative learning approach, but
not much different with conventional learning in
terms of learning outcomes.
4 CONCLUSIONS
The comprehensive study about mobile learning was
still necessary. It is because the mobile learning in
Indonesia was in the early stage. This preliminary
study could support the other research or developing
mobile learning technology for student in the future
especially in Indonesia. All the data that are derived
from the result brings out the final points. The
researcher deduces some great deals that there is no
difference between the class with mobile learning and
the class with conventional learning. Mobile learning
still can be used as an alternative learning approach,
but not necessarily, the result will be better than
conventional learning.
REFERENCES
Asosiasi Penyelenggara Jasa Internet Indonesia (APJII)
(2017) Penetrasi & Perilaku Pengguna Internet
Indonesia, Hasil Survey 2017. Available at:
https://web.kominfo.go.id/sites/default/files/Laporan
ICLI 2018 - 2nd International Conference on Learning Innovation
8
Survei APJII_2017_v1.3.pdf (Accessed: 15 March
2018).
Crompton, H. (2013) ‘A Historical Overview of M-
Learning: Toward Learner-Centered Education
Through the study of recent histories’, in Berge, Z. L.
and Muilenburg, L. (eds) Handbook of mobile learning.
1st editio. New York: Routledge, pp. 3–14.
Hwang, G. J. and Chang, H. F. (2011) ‘A formative
assessment-based mobile learning approach to
improving the learning attitudes and achievements of
students’, Computers & Education, 56(4), pp. 1023–
1031.
Jovanovic, J., Chiong, R. and Weise, T. (2012) ‘Social
networking, teaching, and learning’, Interdisciplinary
Journal of Information, Knowledge, and Management,
7, pp. 38–43.
Nassuora, A. B. (2012) ‘Students acceptance of mobile
learning for higher education in Saudi Arabia’,
American Academic & Scholarly Research Journal,
4(2), pp. 24–30.
Rahmayani, I. (2015) Indonesia Raksasa Teknologi Digital
Asia, Kementerian Komunikasi dan Informatika
Republik Indonesia: Menuju Masyarakat Informasi
Indonesia. Available at:
https://kominfo.go.id/content/detail/6095/indonesia-
raksasa-teknologi-digital-asia/0/sorotan_media
(Accessed: 14 January 2018).
Wang, M. et al. (2009) ‘The impact of mobile learning on
students’ learning behaviours and performance: Report
from a large blended classroom’, British Journal of
Educational Technology, 40(4), pp. 673–695.
The Influence of Mobile Learning Toward 10th Graders’ Test Score
9
