Improving the Imaginative Ability of High School Students

through the Inquiry Teaching Model in Physical Education

Ega Trisna Rahayu

and Adang Suherman

University of Singaperbangsa Karawang, Karawang Indonesia

Faculty of Sport and Health Education, Universitas Pendidikan Indonesia, Jln. Dr. Setiabudhi, Bandung, Indonesia

ega.trisna.rahayu@staff.unsika.ac.id

Keywords: Imaginative Ability, Inquiry Teaching Model.

Abstract: The purpose of this research is to identify and analyze comprehensively the students' imaginative ability

through the application of inquiry teaching model in physical education which is expected to give a positive

achievement of curriculum goal. The method used to reveal the research problem is the experimental method,

with the design of The Randomized Pretest-Posttest Control Group Design. The implementation of the

treatments was done which coming from two companion selected schools, namely SMA Negeri 6 Bandung

and SMA Pasundan 8 Bandung, West Java, Indonesia. The sampling technique used is Cluster Random

Sampling. The number of samples in this study were 55 students consisting of 39 students in the experimental

group and 26 students in the control group. The study was conducted for 16 weeks on every subject of physical

education. The instrument used to measure students' imaginative abilities is a developed questionnaire

instrument directed at Guilford. The results of this research are: 1) The application of inquiry model in

physical education has a significant effect on the improvement of students' imaginative ability. 2)

Implementation of direct teaching model has no significant effect on the improvement of students' imaginative

ability. 3) The application of the inquiry teaching model shows the difference of influence with the more

effective effect of the direct teaching model in physical education on the improvement of the imaginative

ability of the students.

1 INTRODUCTION

Imagination is a cognitive process that is a complex

of mental activity in which elements in the mental

activity are separated from sensory sensations.

Imagination involves synthetics that combine aspects

of memory, memories or experiences into a mental

construct that is different from the past or it becomes

a new reality in the present or even the anticipation of

reality in the future. Imagination is generally regarded

as one of the "higher mental functions," which are

often associated with fantasies, wishful thinking, or

problem-solving forms originally different from the

ordinary. Imagination is generally regarded as the

basis of artistic expression, and the power of

creativity as a higher mental function. Since

imaginative ability is an indicator or part of creativity

aspect, therefore the imaginative ability is very

important for the development of students because it

has a big effect on the totality of a person's personality

in the process of human life. Teresa Amabile, a

professor at Harvard Business School, explores the

issue of creativity based on her research findings that

anyone with normal intelligence is essentially capable

of performing creative work. Similarly, the results of

research conducted, the imaginative ability in the

creativity of students in Indonesia is very low

compared with other countries. Therefore, in addition

to improving the learning system that supports the

development of imaginative abilities in creativity, it

is necessary also that the existence of a system by the

teacher in knowing how far learners can be

committed in developing their imaginative abilities.

In physical education teaching that is essentially an

integral part of the overall education system, it aims

to develop aspects of health, physical fitness, critical

thinking skills, emotional stability, social skills,

reasoning and moral actions through physical activity

(McKenzie et al., 2006). In the intensification of

education as a lifelong process of human

development, the role of physical education is very

important, providing opportunities for students to be

directly involved in teaching experiences through

systematic physical activity, play, and sports.

382

Rahayu, E. and Suherman, A.

Improving the Imaginative Ability of High School Students through the Inquiry Teaching Model in Physical Education.

In Proceedings of the 2nd International Conference on Spor ts Science, Health and Physical Education (ICSSHPE 2017) - Volume 2, pages 382-385

ISBN: 978-989-758-317-9

Debriefing of the learning experience is directed to

foster while forming lifestyle healthy and active

throughout life. Barnett et al. (2008) suggests that the

entire content (topic and subtopic) of skills-derived

subjects should encourage students to observe the

process until creation. To encourage learners to

produce creative and contextual work, it is advisable

to use a learning approach that produces project-

based learning work. Principles of learning that

learners are told to learners to find out, and from a

textual approach to a scientific approach. So to

strengthen the scientific approach (scientific) need to

apply discovery/inquiry learning (discovery/inquiry

learning) (Gallahue and Cleland-Donnelly, 2007).

Inquiry teaching model is one model to improve

students' imaginative ability. Once the importance of

developing students' imaginative abilities can be

observed from the shifting roles of teachers who

previously dominated the classroom, now there are

more opportunities for students to take a more active

and creative role in a fun learning environment.

However, it will be difficult to build a good

understanding of the students, if the physical and

mental are in a state of distress. Student creativity is

possible to grow and develop well if the family

environment, community, and school environment,

also support them in expressing their imaginative

ability (McKenzie, 2007). Friedman et al. (2008) put

an argument that gives a meaning that the inquiry

learning model can be used to develop creativity,

because in the inquiry model the learning process is

when the teacher framing the problem and the

students start to think and move, and the students are

given the freedom to explore possible answers.

Essentially, the teacher asks a question that can lead

to some kind of thinking from the student, which

ultimately the student can provide answers of his own

thinking. In the inquiry model, in addition to

answering questions given by the teacher, students

are also allowed to do/do it. This strategy is used by

teachers in physical education teaching in order to

promote student thinking, to solve problems and give

students the freedom to explore. Previous research

conducted by

Jaakkola and Washington (2012) has tested

an inquiry model of student creativity in primary

school. As well as ongoing research has been done by

Nurlaelah (2009) who apply inquiry model in high

school students through guidance and counseling.

The novelty of this research is that there is no

research revealing related to improve the imaginative

ability of students in physical education through the

application of inquiry learning model (McKenzie et

al., 2000). Due to the description above, the results of

this study are expected to change the paradigm of the

teaching of physical education teachers who initially

tend to apply teacher-centered teaching patterns to

student-centered teaching patterns that provide

comprehensive benefits for learners in cognitive,

psychomotor, and affective aspects. It also can prove

the truth of the theory, the results of research and test

the effectiveness of the application of teaching

patterns indirect teaching or in this study the inquiry

learning model in improving imaginative imagination

of students who at least expected to be a significant

contribution to society, nation and state in creating a

generation full of imaginative in creativity in the

future.

2 METHODS

The method used to reveal the problem in this

research is the experimental method with the design

of The Randomized Pretest-Posttest Control Group

Design. The reason is that the researcher wants to see

how far the treatment of the two types of treatment is

the inquiry learning model in the experimental group

and the conventional instructional model (direct

instruction) in the control group to increase the

students' imaginative ability.

The implementation of the treatments was

conducted in High School. By taking high school as a

city of Bandung as a population, which comes from

two schools selected by companion, namely SMA

Negeri 6 Bandung and SMA Pasundan 8 Bandung.

The sampling technique used is Cluster Random

Sampling. The number of samples in this study were

55 students consisting of 39 students (26 male

students and 13 female students), and in the

experimental group and 26 students (17 male students

and 9 female students) in the control group with the

background rear of education and socioeconal

equivalents. The number of samples in this study was

55 students consisting of 39 students in the

experimental group and 26 students in the control

group. The study was conducted for 16 weeks on

every subject of physical education at school. The

instrument used to measure students' imaginative

abilities is a developed questionnaire instrument

directed at Guilford. Analysis of research data using

ANCOVA test through SPSS 22.

3 RESULTS AND DISCUSSION

The average acquisition and standard devaluation of

imaginative imaginary skills of high school students

Improving the Imaginative Ability of High School Students through the Inquiry Teaching Model in Physical Education

383

in the self-learning model group and direct instruction

group are presented in the following table 1:

Table 1: Average Value and Standard Data Group

Deviation.

Research Group N Minimum Maximum Mean

Deviation

Standar

nqury Teaching

odel

(

retest

)

39 21,00 47,00 37,9231 5,59316

nqury Teaching

odel

(

osttest

)

39 42,00 54,00 49,4103 3,43142

irect Instruction

odel

(

retest

)

26 30,00 47,00 36,5769 4,50043

irect Instruction

odel

(

osttest

)

26 25,00 48,00 37,1154 5,49419

alid N

(

listwise

)

The results of the imaginative ability of high

school students are produced through two

measurement process using imaginative capability

instrument which is one of the indicators of creativity

instrument. The measurement data is presented in

table 1, pre-test data for imaginative ability in the

experimental group had a minimum score of 21.00, a

maximum score of 47.00, an average of 37.9231,

while the mean post-test was a minimum score of 42,

00, maximum value 54.00 and average value 49,4103.

In the control group obtained the pre-test obtained is

a minimum value of 30.00, a maximum value of

48.00, an average of 37.1154, for the final test score

(post-test) is a minimum value of 25.00, a maximum

value of 48, 00, with an average grade of 37,1154

students. The conclusions of the data are listed in

table 1 it can be seen that the inquiry learning model

has a significant effect on the improvement of the

imaginative ability of high school students. Through

Ancova test will be known the influence of inquiry

learning model and direct instruction model (direct

instruction) to increase the imaginative ability of

students together.

Table 2: The Ancova test Results.

Based on table 2 above, then the data concluded

some research results, among others: Sig Value. pre-

test by 0.000. <0.05. That is, pre-test has a significant

effect on the post-test. Sig value. model of 0.000.

<0.05. That is, the learning model has a significant

effect on the post-test. Sig value. Corrected Model of

0.000. <0.05. That is, there is a difference in the

influence of the two learning models between the

inquiry learning model and the direct learning model.

Inquiry learning model is a student-centered

model to be directed to active learning through the

problems presented by the teacher in the form of

questions. Implementation of the model of learning to

provide a learning situation provides a student-

centered learning process through the investigation of

a problem. Student-centered learning and students are

taught how to learn and solve problems through a

process of inquiry. The main purpose of the inquiry

learning model is to develop intellectual skills,

creativity and be able to solve problems scientifically.

In physical education, the inquiry learning model is

designed to invite students directly into the scientific

process into a relatively short time (Stodden et al.,

2008). Students are mentored and encouraged to

explore the possible answers to these questions as

solutions then poured into motion activity. An

overview of the scenario of the inquiry learning

model, suggests that there are several learning

segments in the inquiry model: "Set induction,

elements, scatter space, levels, pathways, directions,

games, reviews and closures". The active learning

process undertaken by students can develop students'

understanding by asking, investigating and observing

by themselves rather than being told only by the

teacher so that the inquiry learning model is a science-

based learning model. In tandem with this, asserts that

"The inquiry model can be used to develop students'

intellectuals, help students become expressive,

creative and possessing psychomotor skills." As

evidenced by the results of Schlenker's research,

indicating that inquiry training can improve

understanding of science, be productive in creative

thinking, and students become skilled in obtaining

and analyzing information.

Differences in students 'creativity in terms of

differences in treatment in both groups, namely in

groups that use inquiry learning model, students'

creativity score has increased, while in groups using

a direct learning model has decreased the score.

Differences in treatment in both groups can affect

student creativity. Questions posed by teachers in

learning using inquiry models provide a stimulus to

brain synapses, which strengthening the synapses

makes the brain cells grow. Rourke and Coleman

(2010) explain that "Another important aspect of

brain development at the cellular level is a dramatic

increase in the connections between neurons (nerve

cells)". New knowledge gained from the student's

learning experience through the inquiry process

(inquiry) contributes to the addition of new synapses,

Source

Type III Sum

of S

uares

df Mean Square F Sig.

Corrected Model 2739,971

2 1369,986 103,550 ,000

Interce

t 784,266 1 784,266 59,278 ,000

PRETEST 381,815 1 381,815 28,859 ,000

MODEL 2084,682 1 2084,682 157,569 ,000

Erro

820,275 62 13,230

Total 132232,000 65

Corrected Total 3560,246 64

a. R S

uared = ,770

(

usted R S

uared = ,762

)

ICSSHPE 2017 - 2nd International Conference on Sports Science, Health and Physical Education

384

while knowledge gained while retained will

strengthen existing synapses. Whereas if existing

synapses are not reinforced by a meaningful learning

experience, then the synapse will be replaced by other

synapses or the synapse will fall. (Rourke and

Coleman, 2010).

explains that "The connections used will be

strengthened while the untapped ones are replaced by

other connections or will disappear. That is, in

neuroscience (neuroscience), these unused

connections will be trimmed ". So, in the end, the

concept of inquiry learning model that has been

disclosed above can give effect to the increase of

student creativity.

4 CONCLUSIONS

The conclusion of the research results, has

implications as follows:

 For the school can maximize the strategy and

learning model at the time of facilities and

infrastructure less support the purpose of

learning and educational goals;

 For physical education teachers:

 Can pay more attention to the appropriate

learning approach used in teaching and

learning process;

 Can be more critical of the problems

encountered in the learning process;

 Can better understand and study about

scholarship especially in understanding

of learning models;

 Can pay attention to the development of

students' imaginative abilities in the

learning process takes place;

 For teachers who have used the inquiry

learning model can continue to deepen

this model, so that the quality of learning

will be in a better direction.

 For students, can be motivated to be more

serious in following learning physical

education so that the results and goals can be

achieved according to expectations so that

knowledge can be beneficial for both yourself

and for others.

Based on the results of processing and data

analysis obtained answers to research questions that

have been proposed. The conclusions obtained are as

follows: (1) Application of inquiry learning model in

physical education has a significant effect on

students' imaginative ability. (2) Implementation of

direct learning model has no significant effect on

students' imaginative ability. and (3) The application

of inquiry learning model shows the difference of

influence with the more effective effect of direct

learning model in physical education on students'

imaginative ability.

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