Inquiry Learning Models toward the Learning Result of Long Jump

in Elementary School

Ali Priyono

1,2

and Nurlan Kusmaedi

Physical Education and Recreation Program, University of Majalengka,, Majalengka, Indonesia

Faculty of Sport and Health Education, Universitas Pendidikan Indonesia, Jl. Dr. Setiabudhi No. 229, Bandung

alipriyono@unma.ac.id

Keywords: Inquiry Learning Models, Long Jump, Physical Education, Elementary School.

Abstract: The purpose of this study was to determine whether there is influence of inquiry learning models toward the

learning result of long jump skill in the group using inquiry learning models and direct teaching models. The

method used was experimental method. The design used in this study was randomize pretest-posttest control

group design. The sampling technique used in this research was random sampling. 30 male and 30 female of

elementary school students were selected. The instrument used was the mastery test motor skills long jump.

The data collection techniques used were observation and photo documentation. While the data processing

used statistical analysis, test of normality and homogeneity of the data, paired sample T-test and independent

sample T-test were applied in analyzing the data. Results revealed the knowledge and understanding of

students in practicing the long jump motion as a result of the inquiry learning models program. These findings

are discussed with regard to the implications for physical education teachers. The teacher needs to review

their approaches in preparing PE teachers for their work in schools.

1 INTRODUCTION

PE teachers' dependency on the standard facility and

learning approaches on the basic technique

presentation and the application of a learning model

is still lack in accordance with the goal of successful

learning, which the space for students to conduct

physical activity, their freedom to explore ideas, and

their opportunities to engage was directly reduced.

Student-centered learning process (a scientific

approach) will involve students to be more active in

learning. Inquiry practitioners who give teachers the

opportunity to engage with professional learning are

both contextual and practicing relevantly. While

professional learning, such as through inquiry, is

relevant to learning outcomes to lessons (teachers and

students), teachers make time to engage with

professional learning which consequently can lead to

improvements in teaching standards in physical

education majors (Victoria, et.al, 2013). According to

Capel and Whitehead (2013), the key role of PE is to

foster the development of cognitive and physical

competencies to provide individuals with the

confidence and motivation to continue the physical

activities outside of school and to sustain or gain a

healthy lifestyle. Graham et.al (Suherman, 2009, p.

11) stated, "In the components of the development of

motor skills and movement concepts, students are

given many opportunities to do meaningful learning

activities in accordance with the level of development

that allows students to develop the concept. People

who have competence in motor skill will likely have

higher self-efficacy and shape positive outcome

expectations for participation in physical activity

engagement Lounsbery and Coker (2008). Through

physical education, it is expected that students can

gain a variety of experiences to express personal, fun,

creative, innovative, skilful, enhancing, and nurturing

physical fitness and understanding of human

movement and developing cognitive, affective, and

psychomotor aspects. Cognitive complexity is the

ability to absorb and integrate information into

schemas so that it may be transformed into skills.

Individuals using cognitively complex perspectives

ask questions, admit uncertainty, examine their own

beliefs, listen carefully, suspend judgments, look for

evidence, tolerate ambiguity, and adjust hypotheses

when new information becomes available (Granello,

2010; Elder and Paul, 1994). Therefore it is necessary

Priyono, A. and Kusmaedi, N.

Inquiry Learning Models toward the Learning Result of Long Jump in Elementary School.

In Proceedings of the 2nd International Conference on Sports Science, Health and Physical Education (ICSSHPE 2017) - Volume 2, pages 157-161

ISBN: 978-989-758-317-9

157

to know the belief that the model of learning affects

the results of student learning in physical education.

Bruce and Marsha (2006) quoted by Suherman (2009,

p1.1) outlined that "the learning model is learning as

an organizing environment that can lead students to

interact and learn how to learn." Metzler (2000, p.

314) explains that:

"The inquiry model is strongly based in the

cognitive domain, even for physical education

instruction. Students are prompted to be by the

teacher, solve the problem cognitively, and then

fashion a movement answer. "

In inquiry-based learning, scientific processes and

critical thinking skills are more efficiently used rather

than memorizing concepts in physical education.

When students participate in lessons by actually

performing, living and responding to questions, they

can relate the lessons to what is happening in nature.

They replace their knowledge with evidence that has

been explored during the investigation

(Uzunosmanoglu, et.al, 2012).

2 INQUIRY MODELS

Siedentop and Tannnehill (in Metzler, 2000: p.372)

said that inquiry is, "called as teaching through

questions." Teaching through questions by Siedentop

(1991: 231) refers to an instructional format tasks.

"Metzler (2000: 372) says the inquiry is," If you do

not have a problem. . (Think, Then Move).

Inquiry is also called guided discovery as Moston

and Ashworth (2008: p.221) says that "guided

discovery styles are logical and sequential design of

questions that lead a person to discover a

predetermined response." Chew-Leng Poon, Doris

Tan, and Aik -Ling Tan (2009: p. 18) explains that, ".

. . more student-centered activities where students

interact more intensively with materials and with

other students during investigations". While Padraig

and McLoughlin (2009) as in "Ophea (2016: p. 6)

says," Inquiry-based learning is a process where

students are involved in their learning, formulating

questions; investigate inquiry-based learning

approach that combines physical-embodied learning

with cognitive-knowledge learning. It is a student-

centered active-learning approach focused on

questioning, critical thinking and problem solving

(Padraig and McLoughlin, 2009), and a method to

stimulate the students to think, act and use all of their

competencies - both cognitive and physical.

Figure 1: Direct profile of inquiry model.

(Joyce, B and Weil, M, 1980)

The direct profile for the inquiry learning model

used in physical education is shown in Figure 1. Note

that while such teaching is often called indirect

learning, it then turns into direct learning in terms of

the categories in the profile. As you can see, the

teacher seeks to retain control of almost any

instruction, but gives control to students a key

category: the pattern of engagement. Once the teacher

frames the problem and students begin to think and

move, it is the student's desire to determine how they

will engage when exploring the possible answers.

While this is only one characteristic of the entire

profile, it provides this model for working as a design,

providing students with different types of knowledge

development needs.

3 METHODS

The method used in this research is true experiment

method which allows researchers to control all the

outside variables that influence the course of the

experiment. The design used in this research is

Randomize Pretest-Postest Control Group Design.

This design can be described as follows:

Figure 2: Randomize pretest-postest control group design

table.

Source: Frankel and Wallen, 1993.

Remark:

O1 = the pretest value of the experimental group

(before being treated).

O2 = Posttest value of the experimental group (after

being treated).

X1 = Treatment of Inquiry Learning Model

O3 = the pretest value of the control group

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O4 = the posttest value of the control group

X2 = Conventional Learning Model

3.1 Participants

Participants in this study were students in the fifth

grade Primary School with the total number 120

students (N = 120). Local schools volunteered to

participate in the study. Sixty students participated in

the study (30 male and 30 female). Their ages ranged

from 9-12 years old. Students were given the

instruction in completing the study.

3.2 Population

The population in this study was the students of grade

A and B at SDN 2 Kedungdawa, Cirebon with the

total number of 72 students.

3.3 Sample

The writer took a random sampling from both classes.

The writer assigned a sample of 60 students, 30 male

students and 30 female students. From 60 students

determined in the experimental class and control

class, they were divided to experimental class with 30

students and control class with 30 students.

3.4 Procedure

This study was conducted for one month (12

meetings), which was held twice a week. In this

study, there were two different groups, one

experimental group (treated), and one control group

(untreated). Within a period of 12 meetings, the

experimental group will be treated using an inquiry

model during the designated amount of study time.

3.4.1 Content Selection

The teacher determines all the contents in the inquiry

model by deciding what to teach (exploration,

solving, etc.) in each unit and lesson.

3.4.2 Managerial Control

Teachers determine specific managerial plans and

classroom procedures such as how to start lessons,

choose equipment, and create groups. The teacher

allows the student to make their own decisions.

3.4.3 Assignment Presentation

The task presentation is used to frame the problem

that the student will be asked to solve in the learning

task. The teacher will have a progress on the progress

plan for each class, and use the task presentation by

providing students with enough information to clarify

the task and its parameters.

3.4.4 Engagement Pattern

Students are given control in problem solving.

because of higher theoretical tasks, students can

explore the possibility of solving problems, working

with other students, trying new things, changing

equipment, or changing body position when trying to

enter the phase "through thinking" about problems at

the time.

3.4.5 Instruction Interaction

Is when students are busy looking for complex

solution problems or have some steps. The nature of

this interrogative interaction is not didactic. Teachers

use questions, not direct statements.

3.4.6 Steps

The teacher determines the overall steps in the unit

and each lesson. The teacher decides when new tasks

(problems) will begin and how much time will be

allocated to each (A). Students determine their pace

in the time allocated for each task by deciding how

long they should think about the solution, how many

times practicing possible solutions, and by

determining when they are done with the task-that is,

when the student has the problem solved (B).

3.4.7 Task Development

The teacher determines the list and sequence of

learning tasks for the unit and each lesson. This

development should lead students to increasingly

complex problems to solve, develop cognitive,

psychomotor, and affective abilities.

3.5 Instrument

Measured components in the skill test of the long

jump motion include the approach phase, repulsion

phase, floating phase, and landing phase.

Table 1: Instruments basic motion skills in long jump

(Kastrena, 2014).

Measured

components

Total

Approach Technique

Repulsion Technique

Floating Technique

Landing Technique

TOTAL SCORE

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4 RESULTS

The data obtained in this study is the value of student

skill in learning long jump using inquiry model and

Direct Instruction learning model. Based on the data

in Table 4.1, the skill score of long jump motion in

the experimental group was in the average pretest

score of 17.1. Furthermore, after posttest obtained the

average score of 18.9. While the scores of basic long

jump motion in the control group obtained a pretest

average score of 17.03. Furthermore, after posttest

obtained the average score of 17.20. It can be

concluded that there is an increasing score difference

in experiment and control group. In the experimental

group the score increased higher than the control

group.

Based on the data in Table 1 the value of

significance on the increase of pretest-posttest score

on long jump motion skills is 0.000 so Ho is rejected.

Hence, it can be concluded that there is a significant

influence of inquiry learning model on the skills of

long jump motion.

Based on the data in Table 2 the value of

significance on the increase of pretest-posttest score

of long jump motion skills is 0.448 so Ho is accepted.

Hence, it can be concluded that there is no significant

effect of conventional learning model on basic long

jump motion skills. Hypothesis testing is conducted

with t-test analysis through SPSS using Independent

Samples Test.

Table 2: Basic motion skill result.

Paired Sample Test

Test

Treatment

∑

Gain

Sig

Pre

Inquiry

17,1

1.57

0.000

Post

18,7

Pre

Direct

Instruction

17,0

0.20

0.448

Post

17,2

Independent Sample Test

Inquiry

Direct

Sig. 2

tailed

0.000

Based on the data in Table 1 the value of

significance on the long jump learning through

inquiry model and direct instruction model obtained

the sig p-value of 0.000. Based on the average results

obtained by both learning models, the result of

learning basic motion skill of long jump by using

inquiry model is 18,7 and the basic motion skill of

long jump by using Direct Instruction learning model

equal to 17,2. Hence, it was obtained the significance

difference of 0.000. It can be concluded that the

results of learning basic motion skills long jump by

using inquiry-learning model is more increased than

the direct instruction model of learning and it can be

concluded there is also a difference of results between

the two models to the results of long jump motion

skill.

5 DISCUSSION

5.1 Inquiry and Interaction

Motion skills in each student is very different, it is

influenced by various factors including physical

condition, playing environment and experience of

motion. Singer in the study (a Schmidt and Wrisberg

2000, pp. 51) suggested, "Learning is reflected or

inferred by relatively permanent change in

performance or behavioural potential resulting from

practice or past experience in the situation."

In the context of motion learning, given the

various experiences of motion and cognitive

understanding, students will receive information then

students will process the information and stored in

(long term memory) and ultimately produce a skilled

movement. As Gibson (1966, 1979) points out (in

Schmidt and Wrisberg 2000, p.56) that "contends that

individuals pick up information directly through their

sensory systems. “Individuals take information

directly through their sensory systems so that as

learning experiences increase, individuals become

more adept at understanding and acting on the

information. The statement (Schmidt and Wrisberg

2000, p.176) supports this notion, that "Buschner

(1994, p. 43) stated:

"Combining the movement concepts with each

motor skill produces a wide variety of learning

experiences. The trick in teaching at the same level as

the teachers, as the most teachers know, is to transfer

the earlier learning to new concepts.

Combining the concept of motion with each

motion skill produces a variety of learning

experiences. Inquiry learning provides a learning

experience through the process of investigation or

observation conducted by students. The existence of

a link between cognitive and psychomotor is derived

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from the domain model of learning that improves the

cognitive aspect.

Contrastive to the use of the direct instructional

model, the lack of student movement experience

because of problem solving that occurs in the learning

process will make the students become less skilled.

(Arianto, 2013, p. 66) said that "the use of

conventional learning model, or teacher-centered

learning, needs to be reduce. The motor skills are

clearly influenced by one's motor development,

(Østergaard, 2016, p. 12) asserts that "The function of

motor development is the mastery of skills depicted

in the ability to complete certain motion tasks.

“Therefore, the quality of motion is seen from how

far the child is able to display the motion assignment

provided with a certain level of success. Therefore it

can be seen from the results of this study shows that

there are differences in results between the two

models in learning long jump.

6 CONCLUSIONS

Learning models have strength and weakness, so it

can be applied in accordance with the needs of

learning. As in this study, researchers have problems

related to students 'motion skills. The writer tries to

apply learning models that would be suitable to

improve students' movement skills. In this study, the

learning model used is in the experimental group

using inquiry model while in the control group using

direct instruction model (Direct Instruction). Based

on the results of research obtained there are

differences in results from both models, but the

difference in scores obtained did not increase

significantly between pretest and posttest score. If we

look from the characteristic of the learning model, the

results obtained are expected to have a significant

increase between the pretest and posttest score. This

can be caused by psychological factors of student

interest in learning.

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