USE OF COMPUTER IN FLIPPED AND NORMAL CLASSROOM SITUATIONS ON SECONDARY SCHOOL BIOLOGY STUDENTS’ ACADEMIC ACHIEVEMENT AND INTEREST IN ABIA STATE

ABSTRACT

The study aimed at examining “The effect of Use of computer in flipped and normal classroom situations on secondary school Biology students’ academic achievement and interest in Abia state. The need for the study arose from concerns expressed by stakeholder’s, committed scholars and researchers on the poor academic achievement and interest of students in Biology, and the need to employ innovative blended learning strategies, especially, in a time like this where COVID-19 pandemic is ravaging the world so as to ensure continuity and flexibility in teaching-learning delivery. The study adopted quasi experimental design. Six research questions and six hypotheses guided the study. The population of the study comprised of 13,102 senior secondary two (SS2) students of 2019/2020 academic session in Abia state. The instruments for data collection are a 50 item multiple choice Biology Achievement Test (BAT) with options A-D adopted from past WAEC, NECO and JAMB questions and Biology Interest Rating Scale (BIRS). Kudder-Richardson (K-R20) and Cronbach’s Alpha test statistics respectively were used to determine the reliability of the instruments. Reliability index of 0.67 was established for BAT and 0.81 for BIRS. Mean and standard deviation scores were used to answer the research questions while the Analysis of Covariance (ANCOVA) was used in testing the hypotheses at .05 level of significance. Results showed that students who were taught with computer assisted instruction in flipped classroom and in normal classroom situations achieved better and had more interest than those taught with lecture method. The use of computer in flipped classroom increased students’ achievement and interest in Biology more than the use of computer in normal classroom situations. Furthermore, female students taught Biology using computer in flipped classroom performed better than their male counterparts, even though it was not statistically significant. However, male students taught using computer in flipped classroom had more interest which is significant than their female counterparts taught using computer in flipped classroom. Male students who were taught Biology with the use of computer in normal classroom situations had higher mean both in achievement and interest than female students taught with the use of computer in normal classroom situations, though none of them were statistically significant. The educational implication of the findings is that poor academic achievement of students in Biology can be improved with the use of computer in flipped classroom which enhances students’ academic achievement and sustain their interest in learning Biology. It is recommended that Biology teachers should use computer in flipped classroom to enhance students’ academic achievement and sustain their interest in learning Biology. Seminars and workshops should be organized for training and re-training of new and old teachers on the use of these innovative blended learning strategies. This will ensure continuity and flexibility in teaching-learning delivery.

TABLE OF CONTENTS

Title page                                                                                                                                i

Declaration page                                                                                                                     ii

Certification                                                                                                                            iii

Dedication                                                                                                                              iv

Acknowledgement                                                                                                                  v

Table of contents                                                                                                                    vi

List of tables                                                                                                                           ix

List of appendices                                                                                                                   x

List of figures                                                                                                                         xi

Abstract                                                                                                                                  xii

CHAPTER 1: INTRODUCTION

1.1       Background to the Study                                                                                           1

1.2       Statement of the Problem                                                                                           13

1.3       Purpose of the Study                                                                                                  14

1.4       Research Questions                                                                                                     15

1.5       Hypotheses                                                                                                                 16

1.6       Significance of the Study                                                                                           16

1.7       Scope of the Study                                                                                                     19

CHAPTER 2: REVIEW OF RELATED LITERATURE

2.1       Conceptual Framework                                                                                               20

2.1.1    Flipped Classroom                                                                                                      20

2.1.2    Computers in Education                                                                                            23

2.1.3    Computer Assisted Instruction                                                                                   27

2.1.4    Lecture Teaching Method                                                                                           32

2.1.5    Academic achievement and achievement test                                                                        33

2.1.6    Gender and academic achievement                                                                            36

2.1.7    Interest                                                                                                                                    37

2.1.8    Biology                                                                                                                       39

2.2       Theoretical Framework                                                                                               41

2.2.1    Theoretical framework for the flipped classroom model of instruction (Revised Bloom’s taxonomy).                                42

2.2.2    Cognitive Theory of Multimedia Learning by Richard E. Mayer (2005)                   45

2.2.3    Social Learning Theory by Albert Bandura                                                                49

2.3       Empirical Studies                                                                                                        49

2.3.1    Studies on Flipped Classroom Model of Instruction                                                  50

2.3.2    Studies on Computer Assisted Instructional (CAI)                                                  55

2.3.3    Studies on Gender and Academic Achievement of Secondary School Students in Biology                                                                                                                        59

2.3.4    Studies on Gender and Interest of Secondary School Students in Biology              61

2.4       Summary of Review of Literature                                                                              62

CHAPTER 3: METHODOLOGY             

3.1       Design of the Study                                                                                                    65

3.2       Area of the Study                                                                                                       66

3.3       Population of the Study                                                                                              66

3.4       Sample and Sampling Techniques                                                                              66

3.5       Instruments for Data Collection                                                                                 67

3.5.1    Validation of the Instruments                                                                                     68

3.5.2    Reliability of the Instruments                                                                                     68

3.6       Method of Data Collection                                                                                         68

3.7       Experimental Procedure                                                                                              69

3.8       Control of Extraneous Variables                                                                                70

3.9       Method of Data Analyses                                                                                           70

CHAPTER 4: RESULTS AND DISCUSSION

4.1       Results                                                                                                                        72

4.1.1    Research questions and hypotheses                                                                            72

4.2       Major Findings of the Study                                                                                      83

4.3       Discussion of Findings                                                                                               84

CHAPTER 5: SUMMARY, CONCLUSION AND RECOMMENDATIONS

5.1       Summary of the Study                                                                                                88

5.2       Conclusion                                                                                                                  89

5.3       Recommendations                                                                                                      90

5.4       Educational Implications of the Study                                                                       91

5.5       Suggestion for Further Studies                                                                                   92

References                                                                                                                              93

Appendices                                                                                                                             101

LIST OF TABLES

2.1: Comparison between traditional classroom and flipped classroom in achieving higher order thinking of bloom’s taxonomy (Zainuddin and Halili, 2016)                     44

4.01: The mean achievement scores of students taught biology with computer  assisted instruction in flipped classroom, computer assisted instruction in normal classroom situations and lecture method.                     72

4.02(A): Analysis of covariance on the mean achievement scores of students taught biology with computer assisted instruction in flipped classroom, computer assisted instruction in normal classroom situations and lecture method         74

4.02(B): Post hoc tests (Scheffe test)                             75

4.03: The mean interest scores of students taught biology with computer

         assisted instruction in flipped classroom, computer assisted instruction in normal classroom situation and lecture method.      76

4.04(A): Analysis of covariance on the mean interest scores of students taught with computer assisted instruction in flipped classroom, computer assisted   instruction in normal classroom situations and lecture method                      77

4.04(B): Post hoc tests (Scheffe test)                                              78

4.05: The mean achievement scores of male and female students taught biology using computer assisted instruction in flipped classroom                     79

4.06: Analysis of covariance for the mean achievement scores of male and female students taught biology using computer assisted instruction in flipped classroom       80

4.07: The mean achievement scores of male and female students taught biology using computer assisted instruction in normal classroom situations                              80

4.08: Analysis of covariance on the mean achievement scores of male and female Students’ taught biology using computer assisted instruction in normal classroom situations                    81

4.09: The mean interest scores of male and female students taught biology using computer assisted instruction in flipped classroom                82

4.10: Analysis of covariance on the mean interest scores of male and female

 students taught biology using computer assisted instruction in flipped classroom       83

4.11: The mean interest scores of male and female students taught biology using computer assisted instruction in normal classroom situations               83

4.12: Analysis of covariance on the mean interest scores of male and female

         students taught biology using computer assisted instruction in normal

         classroom situations                          84

LIST OF APPENDICES

IA: Biology Achievement Test (BAT)                                                      101

Answers to BAT                                                                  109

Table of Specification for Biology Achievement Test (BAT)               110

Appendix I(B): Biology Interest Rating Scale (BIS)                       111

II: Lesson Plans                                                                        113

111: Training Guide for Biology Research Assistants (Teachers) on the various  instructional strategies                                  154

IV(A): Reliability Test of Biology Interest Scale (BIS)                            159

IV(B): Biology Achievement Test Reliability Analysis                   160

V(A): Statistical Package for Social Sciences (SPSS) output of research questions one, three and four                                161

V(B): Statistical Package for Social Sciences (SPSS) output of research questions two, five and six                               163

VI (A): Statistical Package for Social Sciences (SPSS) Output of Hypothesis One              166

VI (B): Statistical Package for Social Sciences (SPSS) Output of Hypothesis Two             169

VI (C): Statistical Package for Social Sciences (SPSS) Output of Hypothesis Three            171

VI (D): Statistical Package for Social Sciences (SPSS) Output of Hypothesis Four             172

VI (E): Statistical Package for Social Sciences (SPSS) Output of Hypothesis Five              173

VI (F): Statistical Package for Social Sciences (SPSS) Output of Hypothesis Six                174

LIST OF FIGURES

2.1: Diagrammatic representation of the study Variables                    41

2.2: Ways that Revised Bloom’s Taxonomy is applied to Traditional versus Flipped Classroom activities (Beth Williams in Brame, 2013).              42

2.3: Diagrammatic representation of Mayer’s Cognitive Theory of Multimedia Learning (Mayer, 2005).                                   48

   CHAPTER 1

INTRODUCTION

1.1              BACKGROUND TO THE STUDY

Biology according to Medical Dictionary (2013) is defined as the scientific study of living organisms-plants, animals and micro-organisms including their relationships with one another and with the inanimate world. Biology as a natural science is concerned with the study of life and living organisms, including their structure, function, growth, evolution, distribution and taxonomy. Modern Biology is a vast and eclectic field composed of many branches and sub disciplines. However, despite the broad scope of Biology, there are certain general and unifying concepts within it that govern all study and research, consolidating it into single, coherent fields. In general, Biology recognizes the cell as the basic unit of life, genes as the basic unit of heredity, and evolution as the engine that propels the synthesis and creation of new species. It is also understood today that all organisms survive by consuming and transforming energy and by regulating their internal environment to maintain a stable and vital condition.

Sub-disciplines of Biology are defined by the scale at which organisms are studied, the kinds of organisms studied and the methods used to study them, for example, Biochemistry examines the rudimentary chemistry of life. Molecular Biology studies the complex interactions among Biological molecules. Botany studies the Biology of plants. Cell Biology examines the basic building block of all life-the cell. Physiology examines the physical and chemical functions of tissues, organs and organ systems of an organism. Evolutionary Biology examines the processes that produced the diversity of life. Ecology examines how organisms interact in their environment.

All the above mentioned branches and sub-disciplines are integrated in the Nigerian National Senior Secondary Biology Curriculum and this shows that Biology as a subject is an interesting one, since it centers on life. It could be offered by science, art and commercial students from Senior Secondary 1-3 because the subject centres on life. Biology is a subject offered at senior secondary school level in Nigeria.

The objectives of the Biology curriculum for senior secondary schools as derived from the National Educational Research and Development Council (2009) are to prepare students to acquire: Adequate laboratory and field skills in Biology; Meaningful and relevant knowledge in Biology; Ability to apply scientific knowledge to everyday life in matters of personal and community health and agriculture; and reasonable and functional scientific attitudes. These objectives explicitly reveal the indispensable nature of the subject.  Furthermore, the Biology curriculum covers the major themes of: Organization of life; organisms at work; the organisms and its environment; and continuity of life with numerous topics and sub-topics under these themes. With these, it can be deduced that Biology as a subject is very important, not only to this nation towards nation building but also to the world at large.

In view of the importance of Biology, various science educators have expressed concern over the poor achievement and interest of students in the subject in senior secondary schools over the years (Njoku as cited in Ezere, 2020). Many factors have been attributed to students’ poor achievement and lack of interest in Biology. Ibe (2015) presents the following as prominent factors contributing to the observed poor performance and interest in Biology: the teaching method used by Biology teachers; learning methods adopted by students, difficult nature of the topics/concepts, lack of equipment and instructional materials for teaching Biology. The West African Examination Council (WAEC) Chief Examiner’s reports (2016, 2017, 2018) have consistently enumerated some of the weaknesses of the candidates to be poor answers to questions bordering on descriptions, inability to adhere to instructions, poor interpretation of questions, poor definitions amongst many others.

Similarly, Ibe (2015) observed that poor preparation of the students due to weak instructional strategies and dearth of instructional facilities account for students’ poor performance in public examinations in Biology. The inability of students to engage actively in the learning process tends to predispose the students to constant rote learning and lack of interest leading to poor academic achievements.

The conventional (expository) method of teaching Biology in most Nigerian classrooms is teacher-centred. This method of teaching lays explicit emphasis on the teaching and gives lesser attention to students’ input in the learning process. When constantly exposed to the conventional mode of teaching, students resort to rote/memorization of concepts. The conventional (expository) instructional method may not be able to achieve the needed goals in Biology in this 21st century. National Teachers’ Institute, NTI (2008b) remarked that the conventional instructional method is teacher-centered, while Adeyemi (2012) unreservedly posited that the conventional instructional method is characterized by emphasis on instructor’s behavior, rather than students’ behavior, minimal responses of students to instructional materials, and delayed feedback on students’ performances. The search for effective and efficient delivery of instruction to students has been a major concern of science educators.

Okarter (2018) also attributed students’ poor achievement in science subjects to poor instructional and learning methods, involving excessive copying of notes and rote-learning as encouraged by expository method of instruction. Since the conventional method of teaching and learning Biology is not yielding the desired result, it is ideal that there should be a shift beyond the conventional approaches to teaching and learning of Biology for there to be an improved performance and interest in Biology among secondary school students by employing innovative teaching-learning techniques.

Nigeria is a developing nation where there are emergence of electronic operations and services cutting across all facets of life ranging from information flows, teleconferencing, banking, business to education. Effective and efficient utilization of the services provided by these electronic technologies enhance the qualities of lives of individuals and the educational height of scholars too. In this era of information and communication technologies (ICTs), modern developments of innovative technologies have provided new possibilities to teaching and learning.

Innovative technologies therefore are those technologies that are relatively new, time saving, reducing difficulty index, interactive, collaborative, integrative, motivating and multimedia in nature. Examples of such are ICTs which are modes of communication technologies, network technologies, computer technologies and mobile technologies.

ICT can change the way teachers teach, be useful in supporting more student-centered approaches to instruction and help in developing the higher order skills as well as promote collaborative activities (Haddad in Ubani 2017). Generally, ICT holds out the opportunity to revolutionize pedagogical methods, expand access to quality education, and improve the management of education systems (World Bank, 2002). Ultimately, the power of ICT will be determined by the ability of teachers to use the new tools for learning to create rich, new and engaging learning environments for students.

Ifegbo (2010) posited that among the challenges facing the teaching profession is the ICT pedagogical and methodological issues. The challenge for ICT integration in teaching and learning processes lies in ensuring that: there is availability of ICT resources; and that the new generation of practicing teachers is well prepared to use the new ICT friendly teaching-learning methods, processes and materials. The new ICT resources for learning will help to prepare students for the challenges of 21st century work-place and community leadership. With the emergence of these technologies which are fascinating, though costly, classroom practice is rapidly changing to include activities that focus more on knowledge building than on information transmission. It is also obvious that newer technologies have changed how students learn. The implication is that the teachers of the 21st century are expected to guide and direct the process of acquiring knowledge. These newer technologies might address and reverse the failures of students in Science subjects such as Biology for an improved academic achievement. 

Academic achievement according to Steinmayr,  Meißner,  Weidinger and  Wirthwein (2017) represents performance outcomes that indicate the extent to which a person has accomplished specific goals that were the focus of activities in instructional environments, specifically in school, college, and university. School systems mostly define cognitive goals that either apply across multiple subject areas (e.g., critical thinking) or include the acquisition of knowledge and understanding in a specific intellectual domain (e.g., numeracy, literacy, science, history). Therefore, academic achievement should be considered to be a multifaceted construct that comprises different domains of learning. Because the field of academic achievement is very wide-ranging and covers a broad variety of educational outcomes, the definition of academic achievement depends on the indicators used to measure it. Among the many criteria that indicate academic achievement, there are very general indicators such as procedural and declarative knowledge acquired in an educational system, more curricular-based criteria such as grades or performance on an educational achievement test, and cumulative indicators of academic achievement such as educational degrees and certificates. All criteria have in common that they represent intellectual endeavours and thus, more or less, mirror the intellectual capacity of a person. Therefore, academic achievement defines whether one can take part in higher education, and based on the educational degrees one attains, influences one’s vocational career after education. Besides the relevance for an individual, academic achievement is of utmost importance in judging the quality of education of a nation.

The attempt to take care of poor achievement of students in science inspired some researchers to use computer technology in the classroom. As an important subject required for sustainable development and nation building, Biology should be taught using effective strategies capable of seeking for and maintaining high interest and achievement among students, irrespective of gender. Similarly, students should study Biology using learning models or strategies that will improve their interest and achievement in the subject. Ndirika (2012) posits that for high achievement in sciences, science teachers have to incorporate learner-centred strategies which will enhance students’ understanding of science concepts and create conducive environment that enhance effective teacher-student interaction. These learner-centred strategies also play a vital role in arousing and sustaining the interest of students in various science subjects such as Biology. Hence, the ICT learner-centred strategies that this research work is focused on are Flipped classroom model of instruction and Computer assisted instructional strategies.

Teaching methods play a vital role in ensuring effective, interesting and stimulating learning and as such inappropriate teaching methods may hinder learning. There are as many methods and techniques of teaching as there are different views of the teaching process. A teacher’s approach to teaching will therefore generally reflect his view of the subject or how he was taught himself (STAN cited in Okebanama, 2019).

Contributing, Ezeani (2014) noted that Educationists believe that there is no best method of teaching and that the best method, however, is that which involves the learner in a number of meaningful activities, where the teacher does not do it all alone. According to Ukegbu (2013), in choosing methods for teaching, teachers should consider the methods that will successfully capture and sustain students’ interest.

Interest, an aspect of affective response, is a construct that has to do with the level to which one likes or dislikes something. It could be aroused in an individual by activity that tends to satisfy the individual’s needs. Since a lot of Biology concepts are adjudged uninteresting, students’ interest in the subject can easily be at low ebb (Kuru, 2019). Contributing, Ibe (2017) revealed three views of students which contribute directly to low interest in science: i) science teaching is mostly transmissive; (ii) the content of school science has an abstractness that makes it irrelevant and (iii) learning science is relatively difficult, for both successful and unsuccessful students. Okarter (2018) maintained that students’ interest in learning science subjects could be achieved through carefully choosing the most appropriate instructional strategy. Ozturk (2015) suggested that instructional strategies to be used in classrooms should give room for students to thoroughly question the content which they are exposed to. Contributing, Awodun and Adekunle (2016) in their research revealed that there is significant relationship in the students’ academic interest in Biology and students’ academic achievement in Biology. It has been observed that most learners perform below average due to lack of motivation and interest; they are neither motivated to learn nor do they do what they are expected to do (Lebata and Mudau as cited in Nwafor and Obeten, 2018). Several researchers have suggested that only motivation (which can be sustained by interest) directly affects academic achievement; all factors affect achievement only through the effect of motivation (Tucker as cited in Nwafor and Obeten, 2018). However, it is not easy to understand what motivates learners. Many studies have been conducted in this topic which has led to the development of several theories of motivation (Lebata and Mudau in Nwafor and Obeten, 2018).  

Ojo (2015) noted that interest is used as a motivating force through which learning should take place. However, Ibe (2017) noted that new ways of accessing the processes that link interest and learning are required. Ojo (2015) suggested that in addition to more standard quantitative and qualitative methodologies, the complexity of academic development in specific domains requires the creation of alternative techniques that can document and describe the nature of interest and the influence of interest on students’ learning. Both the nature and the influence of interest on students’ learning may vary across gender.

Gender has been identified as one of the factors influencing students’ interest and achievement in learning (Nworgu, 2015). Gender issues as a factor or variable are not yet skewed to any direction. There are different findings on gender matters, some in favour of males, others in favour of females and sometimes no gender differences are found. According to Orlich, Harder, Callahan, Trevisan and Brown (2010), instructional strategies happen to be one of the causes of sex-related differences in science performance.

Innovative techniques according to Iwu, Ike and Chimezie as cited in Okebanama (2019) are the new techniques, methods or approaches deliberately designed and developed to improve effectiveness and efficiency in a given setting. The Flipped Classroom Model of Instruction is a pedagogical model where the instructor shares predetermined digital resources with students through a platform outside the classroom, and related content is also taught through this outside platform asynchronously (Bergmann & Sams in Cabi, 2018). Inside the classroom, active, collaborative, and interactive problem-solving activities and consolidation practices are carried out. Thus, learners are more active in the class, internalizing the contents through a wide range of classroom tasks. Flipped classroom is an educational technique which consists of two significant components: (1) the use of computer technologies such as video lectures and (2) the involvement of interactive learning activities (Cabi, 2018).

A flipped classroom model of instruction can also be referred to as a type of blended learning that reverses the traditional learning environment by delivering instructional content, often online (sometimes offline), outside of the classroom. It moves activities, including those that may have traditionally been considered homework, into the classroom. In a flipped classroom, students watch online/offline lectures, collaborate in online discussions, or carry out research at home while engaging in concepts internationalization or advancement in the classroom with the guidance of a mentor. The defining characteristic of the flipped classroom instructional model is that content and material are delivered primarily outside of the classroom while in-class time is used "to work through problems, advance concepts, and engage in collaborative learning".  Using online/offline educational technologies to deliver content and material outside of the classroom frees up in-class time for active and collaborative application of content with the support of classmates and the instructor. This model is designed to allow students to independently engage with materials on their own time and at their own pace, shifts focus from the instructor to the learner, and promotes active learning and problem-solving (Galway, Corbett, Takaro, Tairyan & Frank, 2014). The beauty of the flipped classroom is that it allows the teacher to move away from the traditional role of instructor and become more of a ‘coach’ moving from student to student providing support or guidance where necessary.

Galway, et al. (2014) opined that the flipped classroom model involves more than shifting content delivery outside of class time. It represents a broader shift in how we think about the learning process. It is grounded in several interconnected theories of learning and pedagogy. The explicit attention to interactive and collaborative learning draws on Piaget’s theory of active learning which highlights that learning occurs when we act on and apply new ideas and concepts. In terms of Revised Bloom’s taxonomy of thinking and learning, the flipped classroom enables both higher and lower levels of cognitive work. More specifically, students do lower level cognitive work, that is, the acquisition of knowledge (remembering, understanding and analyzing) independently and outside of class while higher-order cognitive work including knowledge application, analysis, and synthesis occur during class time with the support of peers and instructors. The flipped classroom intentionally shifts instruction to a learner-centered model in which time in the classroom is used to explore topics in greater depth and create meaningful learning opportunities while students are initially introduced to new topics outside of the classroom. In a flipped classroom, 'content delivery' may take a variety of forms. Often, video lessons prepared by the teacher or third parties are used to deliver content, although online collaborative discussions, digital research, and text readings may be used. It has been shown by previous researchers in different countries that the ideal length for the video lesson is 8-12 minutes (Galway et al., 2014).

There is no single or standard way to design and implement the flipped classroom instructional model in practice. The means of delivering content and the ways in which face-to-face class time is used will vary with the characteristics of the students, background of the instructor, available resources and the subject matter. Moreover, lessons should include four major components in order to be entitled as the Flipped Classroom (Flipped Learning Network, FLN, 2014). First, educators should restructure the learning environment and time in a flexible way, considering the individual and group expectations and needs. Second, instructors need to teach the contents in detail, adopting a learner-centered approach and provide rich learning opportunities and activities reflecting a particular learning culture for the specific groups of students. Third, educators should regularly keep track of the difficulty level of the contents and the notes taken by the students as well as their progress, and they also apply active learning strategies that will maximize conceptual understanding of the students. Finally, the instructor should be a professional educator who continuously monitors students in their learning processes, immediately provides feedback, and assesses students' outputs.

Fulton in Hereid and Schiller (2013) listed the following among the advantages of flipped classroom: Students move at their own pace; Doing ‘homework’ in class gives teachers better insight into students’ difficulties and learning styles; Teachers can more easily customize and update the curriculum and provide it to students at any time; Classroom time can be used more effectively and creatively; Teachers using this method in other countries report seeing increased levels of students’ achievement, interest and engagement; The use of technology is flexible and appropriate for 21st century learning.

The essential principle of Flipped Classroom Model is to ensure better comprehension and consolidation of the content, which is learned by the students outside classroom, under the guidance of the instructors inside the classroom (Herreid & Schiller, 2013). After having concentrated on the topics while listening to the lectures or watching the videos outside the classroom, the students internalize them with the help of practical applications and interacting with the instructor in the classroom.

The application of computer in teaching-learning process is often referred to as Computer Assisted Instruction (CAI), Computer Based Instruction (CBI) or Computer Assisted Learning (CAL). Computer-Assisted-Instruction (CAI) is a self-instructional approach to teaching. It is the kind of teaching that follows a sequence. This means that the learning materials are presented in an ordered, structured manner which has been prepared before the learner begins his task. It is characterized by breaking up of the learning content into small bits that lead a learner from what he knows to new and more complex knowledge and principles. Simple problems are also given in each step. The learner responds at each step. When his response is correct, reinforcement is given by the immediate confirmation of the right answer or a correction of the wrong answer. The idea is for the first concept or skill to be mastered first before new ones are introduced. The learner going through the materials is aided by suggestions and hints. Also, there are frequent repetition of key terms and concepts. This educational method has been formed by combining computer technolo­gy and learning principles by oneself (Hancer & Tuzeman, in Ubani, 2017).

According to Gana (2013), Computer Assisted Instruction (CAI) is student centered and can help students in concretizing the abstract aspect of any subject in senior secondary school. Therefore, there is need to employ the use of computer in the classroom that will give room for the teacher to re-strategize, redefine and make the classroom more interactive. Computer Assisted Instruction (CAI) is an interactive instructional technique in which a computer is used to present instruction, monitor learning and select additional instructional material in accordance with individual student’s need. Computer Assisted Instructional (CAI) packages are basically software programs developed for self-education, and can be used as a teaching aid. Several researches have been carried out on the use of computer in teaching and learning and it has been noted that computer makes teaching and learning effective. Okorie (2014) discovered that CAI not only enhances teaching and learning but also sustains students' interest during the learning process. Contributing, Ojo (2015) opined that in order to make teaching and learning more effective, Computer Assisted Instruction (CAI) should be an established means of instruction in secondary schools. A CAI application enhances the teaching process, usually by focusing on one particular learning task and aiming to improve it.

Contributing, Pilli in Okebanama (2019) noted that CAI allows learners to be able to take increasingly more responsibility to choose, control, and evaluate their own learning activi­ties, which can be pursued at any time, at any place, through any means, at any age. Simply put, learners can decide what they want to learn and in what order. Furthermore, CAI is visually attractive, since it presents con­cepts using demonstrations that are made attractive by animation, colour and sound. CAI captures and holds students’ attention by providing opportunities for competition, with the learners’ previous performance as the opponent (Mahmood in Okebanama, 2019). CAI also eliminates misconceptions by provid­ing immediate feedback, since immediate feedback prevents incorrect learn­ing concepts. JAMB drills and practice App is an example. In Computer Assisted Instructional, rote learning is minimized and meaningful learning can occur (Renshaw & Taylor, in Ubani, 2017).

Contributing, Ubani (2017) opined that a teacher could harness the pluralisation of smart phones and personal computers by giving the students tutorial CAI that covers the scheme of work for the coming term including academic videos.  This could be discussed on school resumption as prescriptive tutoring. This could get the students studious during the holidays and help the teacher speed up his teaching since Nigerian Biology curriculum for senior secondary schools is bulky. More so, students form discussion groups where they could choose topics to be discussed at a time using any of the social media such as Whatsapp, facebook, twitter, among others. A Biology teacher can connect his/her Biology class with another Biology class from within or outside the country, courtesy of Flipped Classroom and Computer Assisted Instruction. Even in post-secondary level, a lecturer going on sabbatical could use Computer Assisted Instructional and Flipped Classroom to keep teaching the students till he comes back for facial contact.

There is therefore the need to explore the effects of these two learner-centred instructional strategies (Flipped Classroom and Computer Assisted Instruction) on the Senior Secondary School male and female students’ achievement and interest in Biology.

1.2       STATEMENT OF THE PROBLEM

In a bid to improve the performance and interest of students in Biology, science educators have constantly encouraged the application of innovative instructional methods and strategies in the classroom. The method used by teachers in sharing knowledge with students is one of the factors influencing learning achievements, ability levels and overall intelligence of students at all tiers of educational system (Henson, 2004). Intelligence is the general level of cognitive functioning as reflected in the ability to understand ideas and utilize abstract symbols in the solution of intellectual problems. While appropriate instructional methods are likely to enhance overall intelligence, defective and antiquated pedagogical strategies which are not in consonance with the age could stifle knowledge retention and realization of learning objectives.

Flipped Classroom and Computer Assisted Instruction now holds the key to the current teaching and learning process in this global pandemic. In the midst of this COVID-19 Pandemic ravaging the world and the enforcement of social distancing and wearing of face mask, even in schools; there is no other alternative to teaching-learning particularly for large classes and worst-hit areas/places with this virus than Flipped Classroom and CAI. It has come to stay as the new normal in the educational institutions. Again, there is seemingly limited or no literature that compared the two technological teaching strategies, that is, Flipped Classroom and Computer Assisted Instruction (CAI). This work therefore, intends to investigate the effects of Computer Assisted Instruction in Flipped Classroom and Normal Classroom Situations and Secondary School Biology Students’ Academic Achievement and Interest.

1.3       PURPOSE OF THE STUDY

The purpose of the study is to determine the effects of Computer Assisted Instruction in Flipped Classroom and Normal Classroom Situations on Secondary School Biology Students’ Academic Achievement and Interest in Abia State. Specifically, the study will seek to:

1. Determine the mean achievement scores of students taught Biology with the use of computer in flipped classroom, the use of computer in normal classroom situations and lecture method.

2. Determine the mean interest scores of students taught Biology with the use of computer in flipped classroom, the use of computer in normal classroom situations and lecture method.

3. Ascertain the effect of using computer in flipped classroom on the mean achievement scores of male and female students in Biology.

4. Ascertain the effect of using computer in normal classroom situations on the mean achievement scores of male and female students in Biology.

5. Determine the effect of using computer in flipped classroom on the mean interest scores of male and female students in Biology.

6. Ascertain the effect of using computer in normal classroom situations on the mean interest scores of male and female students in Biology.

1.4       RESEARCH QUESTIONS

The following research questions will guide the study:

1. What are the mean achievement scores of students taught Biology with the use of computer in flipped classroom, the use of computer in normal classroom situations and lecture method?

2. What are the mean interest scores of students taught Biology with the use of computer in flipped classroom, the use of computer in normal classroom situations and lecture method?

3. What is the effect of using computer in flipped classroom on the mean achievement scores of male and female students in Biology?

4. What is the effect of using computer in normal classroom situations on the mean achievement scores of male and female students in Biology?

5. What effect does the use of computer assisted instruction in flipped classroom have on the mean interest scores of male and female students in Biology?

6. What is the effect of using computer in normal classroom situations on the mean interest scores of male and female students in Biology?

1.5       HYPOTHESES

The following null hypotheses will be tested at α = .05 significance level in this study:

Ho₁: There is no significant difference in the mean achievement scores of students taught Biology with the use of computer in flipped classroom, the use of computer in normal classroom situations and lecture method.

Ho₂: There is no significant difference in the mean interest scores of students taught Biology using computer in flipped classroom, computer in normal classroom situations and lecture method.

Ho_3:  There is no significant difference in the mean achievement scores of male and female students taught Biology using computer in flipped classroom.

Ho₄: There is no significant difference in the mean achievement scores of male and female students taught Biology using computer in normal classroom situations.

Ho₅: There is no significant difference in the mean interest scores of male and female students taught Biology using computer in flipped classroom.

Ho₆: There is no significant difference in the mean interest scores of male and female students taught Biology using computer in normal classroom situations.

1.6       SIGNIFICANCE OF THE STUDY

The study is aimed at comparing the effects of computer assisted instruction in flipped classroom and normal classroom situations on secondary school Biology students’ academic achievement and interest in Biology lessons. The findings of this study when published will be useful to students, teachers, parents, examination bodies, researchers, curriculum planners/experts and ministry of education.

The theoretical significance is that this study will strengthen the working memory that will now help for long term learning of the students based on cognitive theory of multimedia learning. Multimedia researchers generally define multimedia as the combination of text and pictures; and suggest that multimedia learning occurs when we build mental representations from these words and pictures. It will also increase the ICT skills of the teachers and students. This study will also make them compliant with the new normal in the teaching-learning process, especially in times like this where COVID-19 global pandemic is ravaging the world.

The result of this study will reveal the most appropriate strategies to be used in teaching Biology concepts amongst the three methods that are being studied which are: Flipped Classroom Model of Instruction, CAI and the conventional/expository method.  It might serve a great deal in arousing the interest of the students in learning Biology, thereby, increasing their academic achievement. This will not only improve their achievement in Biology but will also ensure quality Biology candidates for the Senior Secondary School Certificate Examination, Joint Admissions Matriculation Examinations and qualified candidates for courses in science in the tertiary institutions of learning, which in turn might lead to human and economic development.

The best teaching method when popularized through publications in professional associations and institution-based journals or academic fora/platforms such as Academia, Google Scholar, Research Gate, and Scopus will teach (inform) the teachers on how to utilize it in the classroom in the course of teaching which will lead to high level of academic achievement. When students do exceedingly well in Biology, the Biology teacher will receive the credit. The findings of this study are expected to help Biology teachers to ascertain whether to separate instructional strategies for male and female students if possible. It will also serve as a reference to teachers in other fields of learning to explore and adopt better instructional approaches in handling abstract and difficult topics and concepts in their own areas, for improvement.

When the students do well in Biology and other subjects as a result of the application of the best teaching strategy or method, the parents will be happy that their child(ren)/ward(s) is/are doing well in school. Hence, they will be encouraged to train them further since they are seeing the value of what they are spending for. This will raise the learning morale of the students and then gear it towards human and economic development.

It is hoped that the result of the findings will help examination bodies to ascertain the students’ academic problems and how to help them out. This will greatly aid the students in achieving the best in their academic pursuit.

It will encourage the ministry of education to organize seminars and workshops for Biology teachers on the best 21st century instructional strategies to use in order to get the teachers acquainted with some innovative strategies likely to improve the teaching and learning of Biology and many other subjects. The curriculum planners might even embed it in the curriculum of Biology and other subjects. They can as well introduce the best innovative teaching strategy in Teachers’ Education and their training manuals.

To researchers, the outcome of this research will give them insight and data base for further research. This study will contribute to the body of knowledge in that it will add to the existing literature on Flipped Classroom and Computer Assisted Instruction on Secondary School Students’ academic achievement and interest in Biology. It is expected therefore, that Nigerian and international scholars will be encouraged and motivated to carry out further researches on this important aspect of learning, since learning is now more centred on the learners.

1.7       SCOPE OF THE STUDY

The study investigated the effects of computer assisted instruction in flipped classroom and normal classroom situations on secondary school Biology students’ academic achievement and interest in Abia State. The study used co-educational secondary schools in Abia State. The study was delimited to secondary school students in SS2 since SS1 students are supposedly new to the subject and SS3 students are preparing for external examinations. Three topics in the SS2 Biology scheme of work were used for this study. The topics are: Excretory system, Nutrient cycling in nature, Ecological management (Associations, Adaptation and Pollution). These topics were chosen because the WAEC Chief examiner (2015 and 2018) reported unsatisfactory answers to questions bordering Nutrient cycling in nature; Excretory systems. Also, in the 2017 WAEC Chief examiner’s report summary, it was reported that questions bordering Associations were misunderstood; and not relating function with structure for adaptation questions. The treatment session lasted for six weeks. The study also ascertained the level of students’ interest in Biology. Gender was treated as a moderating variable in this study.

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