Students anxiety towards the learning of Chemistry in some Nigerian secondary schools

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Educational Research and Review Vol. 2 (7), pp. 193-197, July 2007 Available online at http://www.academicjournals.org/err ISSN 1990-3839 2007 Academic Journals Full Length Research Paper Students anxiety towards the learning of Chemistry in some Nigerian secondary schools S. A. Jegede Department of Curriculum Studies Faculty of Education University of Ado Ekiti, Nigeria. E-mail: canonsamakjeg@yahoo.com Accepted 8 June, 2007 The study was designed to find out students anxiety towards the learning of chemistry, identify the factors that cause the anxiety, examine the disposition of sex towards the learning of chemistry and suggest ways to increase their taste towards the learning of the subject. Data for the study was obtained by administering a questionnaire to 300 respondents involved in the study. The data obtained were analyzed using frequency counts, percentages and stanine test. The findings of the study revealed that the students, whether male or female, urban or rural based, show great anxiety towards the learning of chemistry and that the anxiety is higher in female and rural based students than male and urban based students. The cause of students anxiety as revealed by the study include: wide coverage of the syllabus, low awareness of career opportunities, their teacher and his teaching methods and lack of teaching aids / laboratory. Key words: Anxiety, learning, performance, disposition, perception, prospect INTRODUCTION Education from whatever perspective is viewed is aimed at preparing one for life and since it is supposed to prepare one for a better living, one must be certain on what he/she can achieve through it and from what discipline he/she can attain it. Scholars, according to Nwosu (1992) sometimes define psychology as the science of human behavior aimed at offering us organized, observable and reliable knowledge about how people think and behave, as well as why they behave in a particular way. And since the teaching-learning process also concern itself with the promotion of desirable behavior, education must draw some of its principle from psychology. This entails having a good grasp of all theories that influence the teaching-learning process. Attitudes associated with science appear to affect students participation in science as a subject and impact performance in science (Linn, 1992). An international assessment of nine-, and thirteen-year old students in twenty countries as reported by the International Assessment of Educational Progress (1992) revealed that positive attitudes toward science influence students performance and consequently, enrolment. Further research examining psychological effects found that a student s self-concept of his ability to perform in science positively correlated with achievement (Oliver and Simpson, 1988). Anxiety can be generated on the part of the educator if he is not certain of the prospect of his line of thought. It is therefore a key factor in any endeavour because it affects one s ability to endure, concentrate and perceive. It has been observed that so many students fear chemistry and such fear is characterized by mass disenchantment among the students towards the subject. The end product is declining popularity of the subject over the years. According to Keeves and Morgenstern, (1992), students anxiety towards the learning of chemistry makes them to loose interest in the sciences. Chemistry occupies a central position amongst the science subjects. It is a core subject for the medical sciences, textile technology agricultural science, synthetic Industry, printing technology, pharmacy, chemical engineering, to mention just a few. As important as the subject is and in spite of the effort of both the federal and state governments to encourage chemistry education, students still shun the subject (Jegede, 2003). In spite of the age long fear and its effects on the subject, researchers had done little or nothing on the basic psychological factors that could generate such anxiety. Purpose of the study This paper aimed at finding out the causes of students anxiety towards the learning of chemistry. To achieve this stated goal, the paper will especially examine the basic factors that could cause students anxiety towards the

194 Educ. Res. Rev. learning of the subject. It will also assess the impact of sex and location of the students on their disposition and perception of the subject. Research questions The paper is set to provide answers to the following research questions: 1. What are the causes of students anxiety towards the learning of chemistry in Ondo State Secondary Schools? 2. What is the impact of sex and location of the students on their disposition and perception of the subject? 3. What can be done to increase the students taste towards the learning of the subject? METHODOLOGY The study employed the survey type of the descriptive research. The population consisted of all chemistry students in all the 281 public and private secondary schools in Ondo State. The multi stage sampling technique was used to select the subjects for the study. The state had three senatorial zones and each of the zones has six local government areas (L.G.A.s). In each zone, one L.G.A. was randomly chosen; schools in each L.G.A. were then separated into location (rural and urban) and then according to sex type (boys, girls and mixed schools). In each L.G.A., two boys, two girls and two mixed schools (one rural, one urban) were randomly selected. Thus six schools were selected from each L.G.A. and in effect, a total of 30 schools were involved in the study and 20 students offering Chemistry were randomly selected from each school. Thus a total of 360 subjects formed the sample. The only instrument used to generate data for the study was a structured questionnaire. A plot survey was first carried out and from its outcome, the main questionnaire was structured. The instrument was validated by three senior colleagues (one from science education, one from guidance and counseling and the third from test and measurement). Of the 360 copies of the questionnaire administered, 300 copies that were answered in full were analyzed using percentages and stanine test. RESULTS AND DISCUSSIONS This section provided answer to the research questions raised earlier in the study. The results are presented below. (a). Causes of students anxiety towards the learning of chemistry in Ondo State Secondary schools. From the pilot survey, 40 factors that score students from learning chemistry were identified. These factors were than subjected to stanine test (where stanine 1-3 is low agreement 4-6 is medium agreement and 7-9 is high agreement). The students were also asked to rank 16 out of the 40 anxieties in order of severity. The highest ranked 16 among the anxieties using the stanine test are shown in Table 1. From Table 1 above, the causes of student anxieties can be classified into four categories namely; the course content (syllabus), employment prospects, teacher s inte- rest and methodology and teaching aids and laboratory. All these boil down to curriculum planning and implementation. This finding corroborates the observation of the South African Ministry of Education (2000) that, the use of unqualified and under-qualified teachers has the tendency to influence teaching negatively with its implications on performance. Ninety seven percent (97%) of the students held the popular notion that the subject is too wide, demanding and rather cumbersome; about 96% of them feared chemistry because it demands too much of calculation while 95% were of the opinion that it is difficult to under-stand chemical equation and arithmetic. About 94% revealed that there are more failures in Chemistry examination than passes. Furthermore, about 87% of the students said they are scared by chemistry practicals. The next fear of the students is based on employment prospect. Up to 93% indicated that they don t know where to work and 90% believed that classroom teaching is the major employment opened to graduates of chemistry. The third source of anxiety is centered on the teacher. Up to 82% saw chemistry to be too abstract due to the method the teacher uses while teaching and about 80% accused the teacher of lack of interest, innovation, encouragement and resourcefulness. This is corroborated with the assertion of 79% of the students that their teachers don t make use of teaching aids while teaching. Another thing that kills the interest of the students as claimed by 70% of the students is the extra-ordinary thoroughness of the teachers in their assessments. This supports the findings of Busari (1991) that established a positive relationship between teacher s quality and interest of students in science subjects. The fourth source is lack of well- equipped chemistry laboratories, excursions and fieldtrips. No wonder 77% of the students complained that chemistry is too abstract because they have never seen most of the things being taught. This negates the aims of WAEC for chemistry teaching that, the study of chemistry among other things will enable the student to know the link between chemistry among other thing will enable the student to know the link between chemistry and industry, the environment and everyday life in terms of benefits and hazards. Furthermore, 75% of the students attested to the poor condition of chemistry laboratories in their respective schools. Peradventure this is responsible for the opinion of about 72% of them that students are not exposed to practical works until the final certificate examination approaches. All these point to the fact that the students lack exposure as supported by the assertion of about 71% of them that there is no excursion, no fieldtrip and no exposure. (b). Impact of gender on students disposition to the learning of chemistry. The study revealed that female students show more fear or anxiety towards the learning of chemistry than their male counterparts. Out of the 16 highest anxieties

Jegede 195 Table 1. Students anxieties towards the learning of chemistry. Causes of students anxieties Number % Stanine Chemistry syllabus is too wide 291 97 9 Chemistry demand too much of calculation 287 96 9 It is difficult to understand chemical equations and arithmetic 285 97 9 There are more failures in chemistry examination than passes 282 94 9 I don t know where to work if finish my course in chemistry 279 93 9 The major employment for chemistry is classroom teaching 270 90 9 I am scared by chemistry practical 262 87 8 I prefer Economic or Accounting to chemistry. 252 84 8 Chemistry is too abstract due to the way the teacher teaches it. 245 82 8 My chemistry teacher lacks innovation, encouragement and resourcefulness 240 80 8 My chemistry teacher does not make use of teaching aids while teaching 238 79 8 Chemistry is too abstract because we ve never seen most the things being taught 231 77 8 The chemistry laboratory is ill equipped 225 75 7 Students are not exposed to practical until the final certificate examination approaches 216 72 7 No Excursion, no fieldtrip so, no exposure 213 71 7 Chemistry teachers are too thorough in their assessment 210 70 7 indicated, the female students showed higher anxiety over the females in just only five while the female s recorded higher anxieties in eleven. The major problems of the males is centered (in descending order) on wide syllabus, ill-equipped laboratory, lack of exposure to practical works, lack of exposure to excursion and fieldtrips and strictness of the teachers. The females are scared most by the broadness of the syllabus, too much of calculations, more failure than passes, job opportunity and qualify and methodology of chemistry teachers. To support this claim is the fewer number of students currently studying the subject in the schools studied. This finding clearly supports the established fact that gender differences exist in specific abilities of students. (Jegede and Inyang, 1990; Head and Ramsdeen, 1990; Jules and Kutnick, 1990; Adesoji and Fisuyi, 2001) and that these differences are based on some inborn characteristics (Markert, 1996). (c). Impact of school location on students disposition to the learning of chemistry A critical analysis of rural and urban students perspective towards the learning of chemistry shows that students in rural areas registered more fear in learning chemistry than their counterparts in urban area. Among the highest 16 anxieties ranked, the rural students indicated greater anxiety in eleven while the urban students indicated in just five. Students in the rural areas are scared by (in descending order) job opportunities, wide coverage of the syllabus, lack of exposure, teacher s qualities and methodology and more failures than passes. On the other hand, urban students registered their anxieties (in descending order) in too many calculations, more failures and too wide syllabus. This observation could be attributed to various factors some of which include: (i). The quality and quantity of chemistry teachers in urban areas. (ii). More exposure to things being taught and job opportunities if chemistry is read. (iii). More opportunities of attending evening lessons, extra-mural classes, etc than those in rural areas which give them the opportunity of covering and revising the syllabus before finally sitting for any examination, be it internal or external. This finding is in line with the submission of Chambers and Andre (1997) that differences between the genders in learning any physical science topic can probably be attributed to differences in prior experiences, interest and knowledge. There is no doubt that students in urban locations are more exposed than their counterparts in rural locations. (d). Suggestions to students anxieties Lists of 20 suggestions or conditions were presented before the students to choose which of them when met will increase their interest to read chemistry to any level. The highest 10 suggestions of the students are presented in Table 2. From Table 2, the major obstacle to most students who would have loved to read chemistry is the overloaded syllabus. No wonder their first request is the reduction of the syllabus. The curriculum developers are therefore called upon to further review and reduce the syllabus to a manageable size (without reducing the quality at that level) for both the teachers and the students.

196 Educ. Res. Rev. Table 2. Suggestion to students anxieties. Suggestions Raw score % Stanine Reduction of chemistry syllabus 285 95 9 Exposure of all career prospects to students 273 91 9 Provision of more qualified teachers 261 87 8 Organized many excursions and fieldtrips for more exposure 258 86 8 Encourage the use of instructional material and teaching aids 255 85 8 Provisions of standard and well-equipped chemistry laboratory 244 81 8 Exposure of students to practical chemistry right from SS1 236 79 7 If my chemistry teacher can show interest in the subject, motivate and encourage me 230 77 7 If my chemistry teacher can improve on his teaching methods 226 75 7 Reduce exercises involving too much calculations 220 73 7 About 91% of the students would be ready to study chemistry to any level if they are exposed to all the career prospects in chemistry. There is thus the need for proper counseling to wipe off the erroneous notion the students already have that it is only in the classroom that a chemist could get a job. It is also necessary to make them understand the central role chemistry plays amongst the sciences and the various disciplines/courses in the tertiary institutions where chemistry is required as a prerequisite. In the third place we could see the students calling for more qualified teachers to teach the subject. It is pertinent to know that in some of the schools studied, just any teacher who graduated in any of the science courses are engaged in teaching chemistry. Besides, out of the limited qualified graduate teachers, about 70% are in urban areas leaving just 30% to the rural areas this clearly shows that the rural areas are at disadvantage in almost everything that could make the learning of chemistry real, interesting and meaningful. Apart from quality, the quantity of chemistry teachers available in the schools is grossly inadequate and the few that are available are concentrated in the urban areas thus making those in the rural areas to be overloaded. This overloading effect will of course reduce their effectiveness, innovative ability, resourcefulness and encouraging power which the students also complained of. The government is therefore urged to intensify the training and employment of more qualified graduate teachers who should be evenly distributed among schools in rural and urban areas. Another suggestion made by the students is the provision of standard and well-equipped chemistry laboratories, exposure of students to practical chemistry right from SS1 and organization of excursion and fieldtrips for more exposure. The findings of this study have revealed that not up to 20% of 80% of the schools have ever attempted fieldtrip or excursion either within or outside their environment for the past five years. Serious attention should be given to all these as they will further enhance the interest of the students in the subject. The students also complained of poor teaching methods of their teachers and then suggested that they will love to study chemistry if the teachers can improve on their teaching methods. There is no gainsaying it that bad method of teaching will of course predetermine poor performance and kill students interest. The writer therefore enjoins all teachers teaching chemistry to be resourceful, motivating, enthusiastic and encouraging if actually we want to achieve the technological advancement we are yearning for in this nation. Conclusion The findings of this study revealed some of the basic causes of students anxiety towards the learning of chemistry to include: wide coverage of the syllabus, low awareness of career opportunities in the subject, lack of exposure to excursion and fieldtrips, well equipped laboratory, as well as poor teaching methods. Although, all the students, whether male or female, urban or rural based, show great anxiety towards the learning of the subject, the anxiety is higher in females and rural-based students them their male and urban-based counterparts. REFERENCES Adesoji, FA, Fisuyi MO (2001). Analysis of problem solving difficulties of students in volumetric analysis according to gender. Ibadan J. Educ. Studs. 1 (1), 106-117 Busari OO (1991) sustaining students interest in science influence of cognitive and teacher variables. J. Sci. Teachers Association of Nigeria. 27(1) 7-18. Chambers SK, Andre Thomas (1997).Gender, prior knowledge, interest and Experience in electricity and conceptual change, test manipulation in learning about direct current. J. Res. Sci. Teaching. 34(2), 107 112. Head John, Ramsdeen Judith (1990). Gender, psychological type and science. International J. of Sci. Educ. 12(1), 115-120. International Assessment of Educational Progress (1992). Learning Science. Princeton, N.J.: Educational Testing Service. Jegede OJ, Inyang Nsendu (1990). Gender difference and achievement in integrated science among Junior secondary school students: A Nigerian Study. Intl. Rev. Educ. 36(3), 364-368.

Jegede 197 Jegede SA (2003) The effect of the component task analysis model of instruction on students performance in chemistry. Unpublished Ph.d Thesis of the University of Ado Ekiti. Jules Vena, Kutnick Peter (1990). Determinants of academic success within classroom in Trinidad an Tobaggo: some personal and systematic variables. Educatonal Studies. 16(3), 217-235 Keeves JP, Morgenstern C (1992).Attitudes toward science: measures and effects. In J.P. Keeves (Ed.) The IEA Study of Science III: Changes in science Education and Achievement: 1970-1984. (pp 122-140). New York: Pergamon Linn MC (1992). Science education reform: building the research base. J. Res. Sci. Teaching. 29, 821-840 Markert LR (1996). Gender related to success and technology. J. Technol. Studs. 22(2), 21-29.South African Ministry of Education (2000), Education for all: The South African Assessment Report. March; 36-37.