A Study Of Factors Influencing Students’ Academic Performance In A Higher Secondary School In Bhutan: Published in the 16th Volume of RABSEL

Tshewang Rabgay

Abstract

The purpose of this study was to investigate the factors affecting academic performance of the students of a higher secondary school in Bhutan. The dependent variable considered for the study was students’ academic performance, which was indicated by students’ test scores and the independent variables were students’ demographic characteristics, parents’ socio-economic status, parenting style and students’ learning and study strategy. The data were collected from 241 students of the school using two questionnaires­–Learning And Study Strategy Inventory and Baumrind’s Parenting Style’s Questionnaire. Correlation analysis, independent samples t-test and descriptive analysis were used to analyze data. The findings revealed that socio-economic factors such as parents’ education, income and occupation resulted in difference in academic performance but there was no difference in students’ academic performance based on students’ demographic variables like gender, age and living arrangements. Of the three parenting styles, namely authoritative, authoritarian and permissive, it was found that authoritative parenting results in better academic performance. The findings also revealed that students had average level learning and study skills. Recommendations were suggested to improve students’ academic performance.

KEY WORDS: Academic Performance, Socio-economic Status, Learning and Study Strategy, Parenting Style

Kamal: A Talent In My School

Kamal is like any other eleventh grade science student in my school. He is a shy and a timid young boy. Because of his silent and calm nature, he is not an easily noticeable student in the school. He is a member of the school vocational club.

Recently the school conducted 'Club Exhibition'. The school has twenty one clubs. Kamal occupied a small space in the vocational club corner. He sat quietly with some mobile repairing equipment displayed before him. The crowd concentration shifted from one club to another but not many were interested in Kamal. The few that came thought that what was before him was merely a display of disassembled mobile phone. 

All during the program Kamal remained inconspicuous to the audience. It was only towards the end of the program that Kamal came to the limelight. Actually it was my encounter with him that caught the crowd's eye.

Kamal in the vocational club corner

The guests had already left and there was a very thin audience left. I thought we had called it an exhibition and I was walking out of the hall. As I neared the exit door I saw Kamal sitting quietly with two other friends.

"What have you got here?" I asked him.

"Mobile repair sir"

"Can you repair my mobile? Its sound doesn't work" I asked .

I thought he would not dare accept to work on a teacher's mobile. But the response was a confident "Yes sir"

I handed him my mobile and others around me started to laugh taking Kamal for granted. But Kamal started getting busy on the mobile. I told him in jest 'I hope you will not return my mobile in pieces like Mr. Bean returning a solid radio in several pieces to a customer' following which there was a huge laughter from students who thronged around to watch Kamal.

The students who were watching Kamal were anxious over what Kamal was doing. They thought he was on a risky venture of handling a teacher's phone.

Just then a lady teacher walked past and asked me "What's going on here?"

"He is repairing my mobile" I said.

"He will only get your mobile spoiled" she remarked and walked away giving a fleeting glance at Kamal.

Kamal heard the comment and he blushed but his hands never ceased to be confident.

Kamal working on my mobile

At one moment I was skeptical of his ability. I wished I had not given him the mobile. By then he had dismantled the phone completely and I could only watch him.

But his hands were deft and he exuded confidence over what he was doing

Still skeptical, I asked the other two boys sitting next to him who were equally quite. "Do you think he can really repair my mobile?"

"Yes sir. He can. He is really good at it sir." That gave me some reassurance.

Kamal had identified a problem with my phone. He said "sir, there is a disconnection here" He pointed to something very tiny which I couldn't make a thing. He  worked meticulously on it and got it fixed. 

Watching among the crowd was another teacher who also had problem with his mobile phone. He stepped forward and handed Kamal his phone. He had multiple problems - the camera, screen and dial pad. Kamal got all of them fixed just in few minutes. He won the crowd's heart.

Fascinated by his capability, I asked him "Did you do any formal training on repairing mobile phones?" 

"No sir. I learnt by myself at home" he said still looking timid.

"Are all these repair kits yours?" I asked pointing at the kits.

"Yes sir"

"Do you do this at home?"

"Yes sir"

"Sir, he is well known in Daragaon, (the place where he stays)" said the other two boys near him."People give him different electrical appliances such as, rice cooker, curry cooker, water boiler, microoven, washing machine and fan to repair. Just anything sir-any electrical equipment. He fixes them all for free sir. His room looks like a electronics repair shop" 

The next day I got the following things repaired:

1. Water boiler

2. Two fans 

3. Micro oven 

4. Tubelight

5. Extension cord

6. My wife's watch

I was surprised at Kamal's unique skills. Unique because he didn't learn from any Guru but his skills are self-taught. However, Kamal admitted that he cannot repair computers and digital camera. He has plans to attend computer repair course this winter. 

When asked about his ambition, Kamal said he wants to become an electronic engineer. 

Abstract of My Paper Published in RABSEL: The CERD Educational Journal, Volume XV, Autumn 2014.

Patterns of Teacher-Student Verbal Interaction in the Tenth Grade

Biology Classes in Samtse District

Tshewang Rabgay

ABSTRACT

Grounded in the importance of classroom interaction in teaching and learning, this study examined the pattern of teacher-student verbal interaction in grade ten biology classes using Flanders Interaction Analysis System (FIAS). The sample of the study consisted of 8 teachers and 383 class 10 biology students from three higher secondary schools and a middle secondary school in Samtse district. Seventeen grade 10 biology classes were observed using a coding chart. The data obtained were analyzed using the decoding process prescribed in FIAS. The study was significant because its findings and conclusions may stimulate teachers to improve their interaction practices in order to maximize students learning.

The findings revealed that 75.71% of the time was used for ‘lecturing’ making it the most popular approach. The findings also revealed that teacher talk (85.23%) was much more than student talk time (11.38%) which indicated that classroom interaction was dominated by teachers. It was also found that teachers’ used more direct influence (77.27%) through lecturing and giving directions than indirect influence (7.96%) which include behaviors like accepting students’ feelings, praising, encouraging, accepting or using students ideas and asking questions. By and large the findings indicated that teacher dominated classroom interaction continues to be the dominant teaching trend in teaching tenth grade biology in Samtse district. The study confirmed previous studies done in Bhutan which reported similar findings.

Key words: Classroom Interaction, Flanders Interaction Analysis System (FIAS), Biology Class.
PS: Read the full paper in the 'Research and Publication' page on the left sidebar

X E's Hanging Garden

Earlier the school announced class ten and twelve students to work on a project within the school for SUPW grades. My class, X E, has chosen to build what they call 'The hanging garden'. Unlike the Hanging Gardens of Babylon where plants were not hung but grown on concrete structures, X E students really want to hang their garden.

Enthusiastic about their project, they started planning on the site and the paraphernalia. They decided the small area just below the parking lot in front of the school gate as its site. They agreed to collect some money to buy the materials required. I discouraged them from collecting money but they insisted that for SUPW grades they would do anything. They ordered a cuboid metal frame 15x7x10ft from the bordering town of new Chamarchi. However, owing to its big size reaching it to the school was a problem. It didn't fit even in the DCM truck I arranged for them. Therefore, they decided to carry it from checkpoint to the school.

From the border gate to school gate

Placing the metal frame at the site 

Painting it to prevent from rusting

Smudged with paint 

It's been few weeks since they started to work and thus far everything has worked out well. When everybody would go home they would stay back and work on it. While some would be engaged in scrubbing off rust from the metal frame others would be engaged in leveling the ground where the frame will be fixed. More recently they have painted the frame to prevent from rusting and they are now waiting for it to dry. In the mean while they are planning on the type of flowers to be hung.

Over the past few weeks, as they worked on it, I have observed them working with the qualities we expect of students. The project has brought them to work closely as a team. It shows how common goals can bring people together.

Factors Militating Against Students Academic Performance in Samtse Higher Secondary School

An overview of my next study. It's a small scale study. I welcome comments la.

Research Title

Factors Militating Against Students Academic Performance in Samtse Higher Secondary School

Background:

Recently the academic performance of students of Samtse Higher Secondary School has come under the spotlight for a number of reasons. It has been found that students’ academic performance in both home-exams and board-exams has gone down drastically. The Bhutan Council for Assessment and Examinations’ (BCSEA) pupil performance report, 2012 has ranked the school in the bottom ten. Also teachers in the school speculate that the students’ academic performance has declined. This situation signifies the importance of identifying the factors militating against students’ academic achievement in the school.

Objectives

To explore the factors militating against students’ academic performance in Samtse Higher Secondary School

Research Questions:

What are the factors militating against students’ academic performance in Samtse Higher Secondary School.
Subquestions
(i) Do demographic variables hinder academic performance of students of Samtse Higher Secondary School?
(ii) Is there a significant difference between the learning and study strategy of high achievers and low achievers?
(iii) Is there a significant difference in the locus of control (LOC) of high achiever students and low achiever students?
(iv) What according to teachers are the factors attributing to the decreasing academic performance in the school?

Variables
Independent variable:  1. Demographic variables
                                  2. Learning and study strategy
                                   3. Locus of control     
Dependent Variable: Academic performance

Literature Review

The literature review shall present 
1.The theoretical framework 

2. Causes of poor academic achievement

Research methodology

The study will involve all students and teachers of Samtse Higher Secondary School. Four sets of questionnaires developed based on literature review will be used. Three questionnaires will be administered to the students and one to the teachers. 

Questionnaire 1: To explore the relationships between the demographic variables and students’ academic achievement.

Questionnaire 2: To secure data on the learning and study skills of students, LASSI (Learning And Study Strategy Inventoryl) questionnaire will be administered to all students.

Questionnaire 3: The LOC (Locus of Control) questionnaire will be administered to students to determine if there is a significant difference between the LOC of low academic achievers and high achievers.  

Questionnaire 4: Teachers will be interviewed using semi-structured questionnaire.

The data obtained will be analyzed by using SPSS

Group Evaluation

For fair assessment of answer scripts, teachers in many schools in the country are practicing group evaluation. It is evident from various facebook updates and calls from fellow teachers elsewhere in other schools. It's a good move for schools in Bhutan. Unlike single teacher evaluation, group evaluation gives no room for biased assessment. 

Science group

In my school teachers form groups in their respective subject department. To make assessment even fairer my school has given index numbers to all students. Writing index numbers instead of names facilitates fair assessment, in that it prevents teachers from the likelihood of awarding extra marks to their favorite students and low marks to those they don't like. We are more or less emulating BCSEA's way of doing assessment. 

Although long and tiring, there is fun in doing group evaluation. We get to eat variety of refreshments. Teachers take turns to serve refreshment to the group. Each day there is something new to eat and there is a competition about who would bring the best refreshment. It is also a time to talk about a range of issue from government's lopsided pay raise; to how it would affect village folks; to world cup; to how teachers' pay does not commensurate with their work; to soap opera; to fashion celebrities; to the rocketing price of commodities in the market; etc. Another good thing about group evaluation is that teachers can spend their summer break freely. Normally teachers do assessment during the break but group evaluation finishes everything before the break and leaves no outstanding work.   

Content Overloaded Education

Teacher fronted teaching is the dominant teaching method in Bhutan. Walk into any few classes, you would invariably find teachers taking the center stage while students would simply be listening to the teachers explanation of subject matter and copying what teachers write on chalk board. This trend ails the Bhutanese education system. In teacher-fronted teaching, students do not get to learn by interaction. They do not get chance to share ideas. They don't become responsible for their own learning. They depend too much on teachers to decide what and how to learn. They are left with too little to think and they don't become creative. Learning doesn't become an interesting and enjoyable experience.

Many reasons could be attributed to the prevalence of such practice. But a major reason could be the content overloaded curriculum. There are too many content matters to be delivered within an academic year. The heavy content matters developed by curriculum developers and mandating teachers to complete the syllabus in stipulated time-frame has proven to be disadvantages to the Bhutanese education system. It has resulted in pressure on teachers to move with undue pace through material and encouraging a 'tick list' approach to teaching. It has led to less flexibility and creativity and to a more slavish and sometimes, frantic gallop through the curriculum. Teaching and learning depends too much on textbooks. It doesn't give room for teachers to practice innovative and interactive teaching techniques. 

Besides, overloaded curriculum has lead to considering other important learning activities less important. Teachers are forced to neglect minor subjects such as physical education, living skills, character education and moral education in order to focus more on examination subjects. Because of this, education in schools has become exam oriented learning. It forces schools to rush through subject and drill pupils to pass exams.

Moreover, content overload has led people misconstrue the meaning and purpose of education. Due to overemphasis laid on teaching subjects, most people think learning subjects as the centerpiece of education. People feel that education is all about remembering the subject content or being able to write good answers to questions in exams. And students who score good marks are regarded as educated. That is a narrow view about education. Education is more than that.  

Maiden School Magazine for Samtse HSS

Samtse Higher Secondary School's bid to produce a publication started with the launch of a bi-annual newsletter in 2006 by former Principal Mr. Kinga Drakpa. The first two issues appeared successfully. However, due to some reasons, it ceased to find its successive issues. Since then, no attempt has been made to produce a new publication for the school.

However, 2013 academic year put an end to that long gap. The school planned a magazine. It was decided to make it annual publication. An editorial team was identified from among teachers. And the works began. It took a year to give it shape. The magazine finally came out and was formally launched on February 2014. 

My words of acknowledgement go to the following people who gave their hands in bringing out the issue. Foremost, I would like to thank the Principal Mr. Namgay for agreeing on the idea of producing the magazine. Secondly, the editorial team for working on the content and taking care of the language mechanics. Ms.Yonten Dema for typing the articles. The Ads team for touring around and collecting advertisements. Mr. Jigme Dorji the person who took up the most challenging task of working on the design and layout of the magazine. It is evident from the magazine that he has meticulously taken care of every small thing in the magazine. Last but not least, students' parents for their financial assistance. And my congratulations are to the students whose articles featured in the issue.

The content of the magazine is a mix of creative writing and report writing mostly from students and few from teachers. The magazine has helped students foster their writing skills. And for those students wishing to hone their skills in writing, the articles in the magazine can be looked at as models.

Since the magazine is an annual production, I would like to make the following comments for bringing out even better issue next year. And I hope the team who worked on it will not mind but take positively.

The Title: The magazine does not have an attractive title. The team may think of a suitable title. Every book in the world has a title. The magazine should also have one, lest it looks incomplete. The current issue has just the name of the school on the cover. And barely noticeable is a phrase 'window to' just above the name of the school. If 'Window to Samtse Higher Secondary School' is meant to be the title of the magazine, I suggest the team to make it more conspicuous and prominent. Give it a better font, size and location on the cover.

Derogatory Picture Captions: I will not pin point some awkward picture captions used but I suggest the team to rethink over some of them. 

Background Pictures: Many articles have the words run over the background pictures. Since the content is done in black and white, the dark pictures have made the words barely visible. I had to strain my eyes to figure out the words. I suggest the team to use lighter background pictures or locate the pictures away from the words.   

Reader Friendly Font: I would suggest a more legible font than the italicized typeface used. Italicized fonts are slanted, cursive and are difficult to read. The kind of font used effects readership. No matter how good an article, if the font does not appeal to readers we lose readership. So, I would suggest a straighter and a common font throughout.

I must reiterate that the above comments are not meant to overshadow the effort that has gone into making the magazine. But the only reason is to bring out even better issue next year. Cheers!  

Patterns of Teacher-Student Verbal Interaction in the Tenth Grade Biology Classes in Samtse District

Abstract

Classroom interaction is an important aspect of teaching and learning. The purpose of this study was to analyze the pattern of teacher-student verbal interaction in grade ten biology classes using Flanders Interaction Analysis System (FIAS) by finding the mostly used interaction category in FIAS; teacher talk time and student talk time; teachers’ use of direct influence and indirect influence; the proportion of students’ response time and students’ initiation time. The sample of the study comprised 8 teachers and 383 students of the tenth grade biology classes of four randomly selected schools in Samtse district. Eighteen classes were observed using a coding chart. The data obtained were analyzed using the decoding process prescribed in FIAS.

The results of data analysis showed that ‘lecturing’ was the mostly used category in FIAS with 75.71% of the total time; teacher talk time (85.23%) was significantly higher than student talk time (11.38%); teachers used more direct influence (77.27%) than indirect influence (7.96%). The time for students’ response and students’ initiation were 9.93% and 1.45% respectively.

Key words: Classroom Interaction, Flanders Interaction Analysis System (FIAS), Biology       
                     Class.

  

1.     Introduction

1.1 Rationale

Classroom interaction is an important aspect of teaching and learning. Researchers (e.g. Okofar, 1993, Kalu, 2004, Odinko, 2011) found that classroom interaction had significant effect on students’ academic achievement, behavior and motivation. Active classroom interaction enhanced student test scores; changed students’ behavior form passive to active; and motivated students to learn. Due to the significant effect classroom interaction has on learning, there has been a shift in pedagogy trends worldwide from teacher-fronted, non-interactive teaching to interactive, learner-centered learning process.

In Bhutan, the concept of teaching through interactive classroom started in 1986 when NAPE (New Approach to Primary Education) was launched by the Department of Education (Dorji, 2005). Prior to that, teacher-centered was the most commonly practiced teaching method. The new approach framed a new policy that laid emphasis on the shift of teachers’ role from being a ‘sage on the stage’ or from being someone who had authority in class to someone who facilitated learning through interaction, giving more time for students to talk and using indirect teaching. Subsequently, the two teacher training colleges of education trained prospective, as well as in-service teachers on the use of various interactive teaching techniques like cooperative learning method, inquiry learning method, activity-based learning method, etc. 

It has been over two decades since the concept of interactive classroom has been given importance in Bhutan. But, has there been a change in interaction practices? Do our teachers teach through interactive classroom environment? What is the common interaction pattern? What proportion of class time was teacher talk and student talk? Do teachers give enough time for students to share ideas and ask questions? Do teachers use direct influence or indirect influence? In the light of these questions, this study aimed to study teacher-student verbal interaction patterns with reference to teaching the tenth grade biology.

The basic assumption of the study was that in a normal classroom verbal communication was predominant (Flanders, 1970; Blatt et al, 2008). The results of the study would provide a clear picture of patterns of teacher-student verbal interaction in the tenth grade biology classes.

1.2 Research Objectives

The objectives of the study were to analyze the teacher-student verbal interaction patterns in teaching the tenth grade biology by finding:  

1.2.1 The mostly used interaction category in FIAS.

              1.2.2 The teacher talk time and student talk time.

              1.2.3 Teachers’ use of direct influence and indirect influence in class.

              1.2.4 Students’ response time and students’ initiation time.

1.3 Research Questions

What were the patterns of teacher-student verbal interaction in teaching the tenth grade biology classes?

1.3.1       Which was the mostly used interaction category in FIAS?

1.3.2       What proportion of the class time was teacher talk time and student talk time?

1.3.3       Did teachers use more direct influence or indirect influence?

             1.3.4    What percentage of time was students’ initiation and response?

2. Literature Review

2.1 Definition of Classroom Interaction

Biddle (1967) defined classroom interaction as “an action-reaction or a two-way influence which may be between teacher and students or among students.” Odinko (2011) provided an elaborate definition considering teacher, learners and learning material. He defined it as “behaviors exhibited by the teacher and learners in the form of communication between teacher and learner in small groups or with the entire class as well as learner-learner, learner-material and teacher-material.”

2.2 Learning Theories Underlying Classroom Interaction

Classroom interaction is based on social interdependence theory developed by a Russian scientist Vygotsky. The social interdependence theory claims that learning should be socially mediated. By implication, the degree of social interaction in any class is assumed to influence learning. It is along this line that Johnson and Johnson (1994) reiterated that interaction means the interdependence and active involvement of all in the social construction of learning. Further, Vygotsky (1978) said that the more socially skillful students are and the more attention teachers pay to teaching involving the learners in activities through the use of social interaction, the more it would lead to the achievement of self goals.

2.3 Significance of Classroom Interaction

Interaction is viewed significant in learning because it influences students’ academic achievement. Several interaction studies have indicated that some relation exists between classroom interaction pattern and student achievement. Okafor (1993) found a positive relationship between classroom interaction and student level of achievement. Udeani (1992) reported that classroom interaction accounted for about 74% of the variation in students’ cognitive achievement.

Besides academic achievement, interactive learning also lead to gains in social skills. Johnson and Johnson (1989) found that when students were placed in social context such as in cooperative learning where they engaged in active ‘face to face interaction’ (one of the five principles of cooperative learning), they shared ideas, point of views provided, got positive feedback and reached a common consensus which promoted skills like communication, decision making and leadership. They also found that students learned how to accept differences based on ability, ethnic, background, and gender.

 Interactive classroom also brings about changes in students behavior and motivation. Siau et al (2006) found that students in interactive classroom were more motivated to learn, more attentive, more participative and more likely to exchange ideas with instructors and fellow students. Furthermore, positive classroom interaction helps in building positive relationship between teacher and students or among students. Hamre and Pianta (2001) stated that when students had strong and positive relationship with teachers, they were more likely to believe, love the teachers and were more motivated while teachers were more motivated to spend time and energy to improve student success. But a negative relationship with the teacher and students would lead to student dropout rates and teachers often handled only student behavior and prevented efforts to promote positive school environment.

2.4 Related Researches

A study conducted by the Royal Education Council (2009) to study the classroom practices in school in Bhutan reported the following findings:

·       Teaching consisted mostly of one-way talk by the teacher to convey textbook content without being able to get students to comprehend and demonstrate their learning (p.27).

·     Classroom instruction showed predominance of one-way talk by teacher and writing on the chalkboard with lesser evidence of student-centric activities (p.28).

·       There was little evidence of active dialogue between the students and teachers (p.29).

·    Inside the class, students rarely asked questions and were not seen to be participating actively in the teaching process.

In another study done by Sherab (2008) to determine the types of teaching practices applied by primary school teachers in Bhutan, it was found teacher dominated teaching to be the dominant teaching method used by teachers. The results of these studies indicated that non-interactive traditional teacher fronted classrooms is still prevalent in Bhutanese classrooms.

There were numerous studies done in other countries on classroom interaction using FIAS. Kalu (2004) in Nigeria observed and coded interaction pattern using FIAS during Physic lessons in 15 selected secondary schools in Nigeria. The sample included 516 Senior Secondary One (SS1) students and 15 Physics teachers. The results revealed that most of the teachers used direct influence than indirect influence. Most of the class time was dominated by teachers. The study also revealed a strong correlation between classroom interaction and students attitude towards learning physics and academic achievement. The more teachers used indirect teaching, the more students developed positive attitudes towards physics and achieved higher in academic tasks. In other words, students’ development of positive attitude towards physics and achievement in low academic tasks significantly increased with teachers’ indirect influence of classroom activities.

Similar results were found in a study conducted by Babelan and Kia (2010) in Ardebil, Iran. The study aimed at finding interaction pattern among teachers and primary school students using FIAS as the research instrument. The sample included 400 teachers and 1083 primary school students. Regression analysis of the data gathered showed that from the total observation time teacher talk time made up 57.77% of which 16.7% was indirect influence, 41.04% was direct influence, while 33% made up student talk time and 10% made up silence time. In another study by Inamullah (2008) found the results along the same line. The aim of the study was to explore the ratio between direct and indirect influence of English teachers teaching college level students of North West Frontier Province of Pakistan using FIAS. It was found that majority of the teachers used more direct influence than indirect influence. 

3. Research Methodology

This study was classroom observation research that used Flanders’ Interaction Analysis System (FIAS) as a tool to observe, and analyze the patterns of teacher-student interaction in the biology classrooms.

3.1 Research Design

The research design adopted for this study was coding and decoding process involved in interaction analysis. The coding process involved assigning numbers as codes for each interaction categories in the FIAS. The result of assigning codes to the categories in the FIAS was the coding chart as shown in Table 3. The coded chart was used to observe eighteen tenth grade classes in the sample schools of Samtse district. The classes were observed by a nominated teacher in each sample school who had been trained on using FIAS. In the decoding process, the coded data were interpreted to get a picture of the interaction patterns in the classroom.

3.2 Population

Population of the study included teachers and students of tenth grade biology classes of middle and higher secondary schools in Samtse district.

3.3 Sample

Sample of the study included 8 teachers and 383 students of tenth grade Biology classes of four randomly selected schools in Samtse district. The schools, the number of teachers in each school and the number of section of tenth grade classes were given below: 

School	No. of Students	Classes Observed	No. of Biology Teachers
Samtse HSS	123	10A 10C 10D 10E	3
Yoeseltse MSS	99	10A 10B 10C	2
Peljorling HSS	64	10C 10D	2
Tendruk HSS	97	10A 10B 10C	1
Total	383	12	8

(Couldn't upload the remaining part of the paper.......will do it soon)

THE EFFECT OF COOPERATIVE LEARNING METHOD ON LEARNING ACHIEVEMENT AND OPINION OF THE SEVENTH GRADE STUDENTS TOWARDS SCIENCE SUBJECT, BHUTAN

Tshewang Rabgay

-------------------------------------------------------------------------------------

ABSTRACT

The purpose of the study was to find the effect of using cooperative learning method on learning achievement and opinion towards science subject of the seventh grade students at Samtse Lower Secondary School in Bhutan. The subjects of the study comprised 82 seventh grade students. The study was an experimental research and pretest-posttest using control and experimental group was adopted. The research instruments were achievement test, opinion questionnaire, observation form and lesson plans. Data from test scores, students’ opinion and lesson observations were analyzed by calculating mean, standard deviation and p-value using paired samples t-test.

The results of test score analysis showed that the pretest means of the two groups were not different but the posttest mean of the experimental group (11.27) was significantly higher than that of control group (16.01). Students’ opinion analysis results showed that the means of interest (2.92), understanding (2.99) and satisfaction (2.81) in the pre-survey increased to high level of opinion on post-survey (interest 3.83, understanding 3.84, and satisfaction 3.78). The level of difficulty of the subject decreased from high in the pre-survey (3.87) to low in the post survey (2.45). The results suggested that there was positive change in opinion as a result of inclusion of cooperative learning.

Key words: Cooperative Learning method, Science, Learning Achievement, Education, Bhutan.

1. Introduction

            In spite of the emerging innovative teaching methods, traditional teaching is a dominant teaching method in teaching science in Bhutan (Sherab, 2008). The drawbacks of teacher centered learning has led to poor understanding of concepts and has resulted in poor learning achievements in science tests (Tenzin, et al, 2009). Besides, students have negative opinion towards learning science. They have low level of interest, understanding, satisfaction and perceive science as a difficult subject.

          Over the past decades cooperative learning method has emerged as a leading new approach to classroom instruction. Researchers have revealed that students learning through cooperative groups have higher academic test scores, higher self esteem, greater number of positive social skills and greater comprehension of content and skills they study (Johnson and Johnson, 1994). So, cooperative learning method would be an alternative to traditional teaching in Bhutan. However, not many studies have been done to determine the effect of cooperative learning method in Bhutanese teaching-learning context. Therefore, the objectives of this study were: 1. To study the effect of cooperative learning method on the learning achievement of seventh grade students studying science. 2. To study the effect of cooperative learning method on students’ opinion towards seventh grade science.

2. Literature Review

2.1 Cooperative learning

Cooperative learning is the instructional use of small groups so that students work together to maximize their own and each other's learning (Johnson and Johnson, 1994). Kagan (1989), defined cooperative learning as a teaching arrangement that refers to small, heterogeneous groups of students working together to achieve a common goal.

           

            2.2 Theories underlying cooperative learning

            (i) The Vygotskian Perspective

            The Vygotskian perspective related to cooperative leaning is Zone of proximal development and it formed the theoretical bases for cooperative learning (Doolittle, 1995). Vygotsky believed that the process of the cognitive development is dependent on social interaction and that social learning actually led to cognitive development. This phenomenon was called the Zone of Proximal Development.  

           

            (ii) The Piagetian Perspective

              Piaget believed the cognitive performance in children is directly associated with the cognitive development stage they were in. Piaget believed that learning involve the participation of the learner. Knowledge was not merely transmitted verbally but must be constructed and reconstructed by the learner (Sigel, 1977).

(iii) Bandura’s social learning theory

            The social learning theory of Bandura (1977) emphasized the importance of observing and modeling the behaviors, attitudes, and emotional reactions of others. Social learning theory explained human behavior in terms of continuous reciprocal interaction between cognitive, behavioral, and environmental influences.

           

            (iv) Constructivism

            Being student-centered by nature, cooperative learning owed much credit to Constructivism (Liang, 2002). Constructivism is a philosophy of learning that was founded on the premise that learning was an active, contextualized process of constructing knowledge rather than acquiring it (Piaget, 1973 and Papert, 1980).

(v) Dale’s cone of learning

According to Edger Dale (1946), retention rates arw the highest with teamwork which included (a) discussion groups: 50%, (b) practice by doing: 75% and (c) teaching others/immediate use of learning: 90%. As a sharp contrast, the retention rate of the traditional ways of individual and passive learning like lecturing (5%), reading (10%), and demonstration (30%) lasted no more than 30 percent.

2.3 Principles of cooperative learning

     According to Johnson and Johnson (1994) there are five principles of cooperative learning (i) Positive interdependence (ii) Face-to-Face promotive interaction (iii) Individual accountability (iv) Interpersonal and small group skills (v) Group processing.

           

            (i) Positive interdependence

            Johnson and Johnson (1987) stated that the heart of cooperative learning is positive interdependence.  Students in cooperative group depend on each other for ideas, resources and moral support for the success of the group. They work on a common goal and they must think that they are linked to each other (Johnson and Johnson, 1989).

(ii) Face-to-face promotive interaction

            It requires children to discuss, share ideas, views and materials, providing and getting feedbacks, encourage to keep one another highly motivated to complete that task they are assigned (Johnson and Johnson, 1987).

           

            (iii) Individual accountability

           Students in cooperative learning are responsible for their own and group’s learning. Having small sized group enhances group accountability because each member will be accountable for learning (Johnson and Johnson, 1989).

           

            (iv) Interpersonal and small group skills

Students in cooperative groups practice and develop teamwork skills like leadership, decision making, trust-building, communication and conflict management (Johnson and Johnson, 1989).

           

            (v) Group processing

           Students in cooperative groups discuss how well they have achieved the goal, describe what member actions are helpful and unhelpful and make decision about how to continue or change (Johnson & Johnson, 1989).

2.4 Related research            

Several studies have examined the effects of cooperative learning methods on student learning. Humphreys, Johnson, and Johnson (1982) compared cooperative, competitive, and individualistic strategies in science classes and found that students who were taught by cooperative methods learned and retained significantly more information than students taught by the other two methods. Sherman and Thomas (1986) found similar results in a study involving high school general mathematics classes taught by cooperative and individualistic methods.  Wodarski, Adelson, Todd, and Wodarski (1980) found significant gains between the pretest and posttest scores in teaching nutrition.

Johnson and Ahlgren (1976) examined the relationships between students' attitudes toward cooperation, competition, and their attitudes toward education. The.results of the study indicated that student cooperativeness, and not competitiveness, was positively related to being motivated to learn. Humphreys, Johnson, and Johnson (1982) also found that students studying physical science in a cooperative learning treatment group rated their learning experience more positively than did students in competitive and individualistic treatment groups. Tjosvold, Marine, and Johnson (1977) found that cooperative learning strategies promoted positive attitudes toward both didactic and inquiry methods of teaching science, and students taught by cooperative strategies believed they had learned more from the lesson than did students taught by competitive strategies.

3. Research Methodology

3.1 Research design: The study was an experimental research and pretest-posttest design using two groups was adopted.

3.2 Subjects of the study: Subjects of the study comprised 82 seventh grade students of Samtse Lower Secondary School. They were divided into two groups-control and experimental.

3.3 Research instruments: Four research instruments were used:1. Achievement test 2. Opinion questionnaire 3. Lesson observation form and 4. Lesson plans.

3.4 Validity and reliability: A panel of experts assessed the instruments for validity. They were pilot tested for reliability. The Chronbach’s alpha reliability coefficient for the questionnaire was 0.83 and for the test the KR-21 coefficient was 0.75.

3.5 Experiment procedure: Pretest was administered to the two groups. To study the opinion, a pre-survey questionnaire was administered to the experimental group. The two groups were then taught the same topic ‘Sunlight’ using seven lessons. The control group was taught with traditional or lecture method while the experimental group was taught using cooperative learning techniques i.e. jigsaw, STAD, roundtable, team-pair-solo and group investigation. Two science teachers observed the lesson in the experimental group to study the extent to which the lessons were characterized by cooperative learning environment. At the end a post test was administered to both groups and the post-survey opinion questionnaire was administered to the experimental group.

4. Data Analysis and Findings

The data was analyzed in three parts 1. Test score analysis, by comparing the scores of the two groups in terms of mean, standard deviation and p-value using paired samples t-test. 2. Opinion analysis, by comparing the opinion of two groups in terms of mean, standard deviation and p-value using paired samples t-test. 3. Lesson observation analysis using mean and standard deviation.

The results of test score analysis showed that the pretest means of the control group (8.63) and experimental group (8.70) were not different but on posttest the mean of the experimental group (11.27) was significantly higher than that of control group (16.01).

Students’ opinion analysis results showed that the pre-survey means of interest (2.92), understanding (2.99) and satisfaction (2.81) in learning science increased to high level of opinion (interest 3.83, understanding 3.83, and satisfaction 3.78). The level of difficulty of the subject decreased from high in the pre-survey (3.87) to low in the post survey (2.45). The results indicated that students’ level of interest, understanding, satisfaction increased and perceived learning science as a less difficult subject as a result of inclusion of cooperative learning.

The results of lesson observation analysis showed that teacher observers strongly agreed that cooperative groups were characterized by positive interdependence (mean 4.6: strongly agree) and individual accountability (4.52: strongly agree). Teachers agreed that students showed face to face interaction (4.14: agree), interpersonal and small group skills and group processing (3.77: agree) during cooperative group activities. In sum, it indicated that the lessons were carried out in cooperative learning environment.

5. Conclusion

The study drew two major conclusions:     

1. Cooperative learning increased the learning achievement of seventh grade science students.        

2. Students’ level of interest, understanding, satisfaction increased and students perceived learning science as a less difficult subject as a result of cooperative learning.

6. Discussion

The study had two major findings. The first was that cooperative learning method increased seventh grade students’ learning achievement. The second was that students’ level of interest, understanding, satisfaction increased and perceived learning science as less difficult subject as a result of cooperative learning.

            The first finding was consistent with the findings of Humphrey, Johnson and Johnson (1982) that students studying physical science by cooperative learning method learned, retained and scored better than students taught by competitive and individualistic methods. The finding was also congruent with Wodarski, Adelson, Todd, and Wodarski’s (1980) findings that there were significant gains between the pretest and posttest scores in teaching nutrition using cooperative learning method.

            A possible reason to account for such significant gain could be because of the socially oriented lessons taught and learned through small group interactions (Vygotsky, 1978). As students interacted, they shared their ideas and point of views, give and receive support from each member and help each other dig below the superficial level of understanding of the material they were learning (Johnson and Johnson, 1990).  Teacher observers noted these behaviors during the lesson and commented:

“...The classroom environment was completely different. Normally, students hardly talk but this time we have seen even the quietest student in the class actively interacting with the group members....” (Teacher B)

Such interaction among group members could have lead to clear understanding of concepts and retain them in memory. According to Dale (1946) student retain 50% of what they learn through discussions and 90% of what they learn by teaching their peers. This mechanism of cooperative learning could have led to gain in test scores.

Another reason to account for the gain in test score could be due to the less threatening classroom environment. Students in the experimental group experienced more freedom to express their ideas and enjoy the lesson than did control group where teacher dominated the class. Teacher observer noted the change in learning atmosphere and commented:

“...The teacher did not impose any hard rules that would intimidate the students. He was rather approachable, friendly and caring. In such less threatening class, students seemed to learn better and enjoy the learning experience...” (Teacher A)

According to Johnson and Johnson (1990), when students interact, shared ideas and point of views, give and receive support from each member and help each other, it enables them dig below the superficial level of understanding of the material they are learning.

Other reasons to account for such gains could be because of the equal opportunity for success in cooperative learning. Students in a group learnt in the spirit of ‘Sink or swim together (Johnson and Johnson, 1990) and they made sure that each member has understood the material they were learning. This was evident as teacher observers agreed to statements such as ‘Students made sure that all members in the group had learnt’.  

Moreover, several learning theories also account for the high learning achievement. Since cooperative leaning has its root in theories of child-centered learning, theories such as Vygotsky’s (1978) theory of social learning which contends that student learning depend on social interaction; constructivism which states that student construct their own knowledge and their learning increases depending on their involvement; and Edger Dale’s (1948) learning theory which states that student retain information better when they learn through group discussion and teaching peers, support the finding. 

The second finding of the study that students’ level of interest, understanding, satisfaction increased and  perceived learning science as a less difficult subject, was consistent with the findings of Humphreys, Johnson, and Johnson (1982) who found that students studying physical science in a cooperative learning treatment group rated their learning experience more positively than did students in competitive and individualistic treatment groups. It was also consistent with the study of Tjosvold, Marine, and Johnson (1977) who found that students taught by cooperative strategies believed they had learned more enjoyably than did students taught by competitive strategies.

Some possible reasons to account for such change in opinion could be due to the less threatening and enjoyable learning environment where students could freely express their ideas and point of views, give and receive support from each member and help each other dig below the superficial level of understanding of the material they were learning. According to Slavin (1995), such learning environment ultimately helps students in psychological wellbeing and increases the level of interest. 

Another reason to account for such positive change in opinion could be due to the pleasure and satisfaction students derived from having understood the concepts they learnt. It was evident from students’ high ratings to statements such as ‘I learn science concepts by understanding not by memorization’, ‘I am satisfied with what I learn in science class’, ‘Each science class makes me happier’. 

The fun and enjoyable learning atmosphere can also be attributed to students’ increased level of interest and satisfaction. The researcher planned quizzes, tests and games at the end of each group activity to make the lesson interesting. For example, in a lesson using STAD, students first learned a concept in group and a test was done but without seeking help from peers. The individual scores were added up and the total points scored became the score for the group. The group securing the highest point was rewarded. Students found this activity of cooperative learning so interesting that even the next lesson had to be conducted using STAD. It indicated that among the five techniques, children liked STAD the most.

 Besides the two findings, a notable point in the observation analysis was that the mean of fourth principle of cooperative learning, interpersonal and small group skills, was lower than that of other principles. The possible reason for such low mean could be because students were not experienced in working in cooperative groups. Although group exercises were conducted before the treatment to make the students familiar among themselves and socialize with each other, the short period of time the researcher used for this session might not have been enough for them to be familiar enough and work with interpersonal and small group skills.

Currently cooperative learning has been found effective in many countries like Australia, Russia, Singapore, New Guinea, Ireland and Lebanon, The U.S.A, Canada, Germany, England, Saudi Arabia, New Zealand, Turkey, Panama, Singapore, Hungary, etc. Since this study also found cooperative to be effective in teaching grade seven science in Bhutan, it can be claimed that cooperative learning is not culture bound and it can well be used in Bhutan as an alternative to traditional teaching.

However, some limitations of the study may be noted. Firstly, the subjects of the study were only two classes of the seventh grade students. Secondly the experiment was conducted within a very short period of time, just over a month and only 14 lessons were used. Thirdly, the study was conducted in a semi-urban school and the results might not be generalized to urban and rural schools where teaching-learning context is quite different. These factors limit the generalizability of the findings.

7. Recommendations

7.1 Recommendation for practice: The study recommended teachers in Bhutan to use cooperative learning method as an alternative teaching method to teach science.

7.2 Recommendation for further research: 1. To study the effectiveness of cooperative learning method in other subjects and other levels of education. 2. This study used variety of cooperative learning structures like team jigsaw, STAD, group investigation, roundtable method, team pair solo, etc. Researches may be conducted to study the effectiveness of each of these techniques. 

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