1. Introduction
Teaching profession is considered as one of the challenging professions that requires creativity, patience, field expertise, teaching capability, and leadership as well as field-specific knowledge and skills [
1,
2]. Therefore, the rigorous and functional design of teacher education programs is of great significance. One of the central discussions on teacher education today is the need for redesigning these programs so as to enable teachers to meet the changing demands of the 21st century and to adapt to their new roles in the face of the global changes. With this regard, equipping prospective teachers with the knowledge, skills, and expertise to cope with the ever-changing expectations and roles in the contemporary schooling environments is of crucial significance [
3]. As emphasized by Ünsal [
4], the roles and responsibilities of teachers vary depending on changes in the social structure and parent-student profile, new approaches in the field of educational science, legal regulations, and advances in science and technology. Social, economic, and political developments that have challenged classical educational approaches have undoubtedly had implications for teacher education programs [
5]. Hence, updates in teacher education programs have been obligatory in recent years and there has been a significant increase in the number of scientific studies calling for such changes [
6]. Several of these studies have also focused on the psychological aspect of the teaching profession both before and during the service, and drawn attention to the significance of understanding these psychological factors in developing prospective teachers’ success in the profession.
Perceived self-efficacy, attitude toward the teaching profession, and classroom management anxiety are among these psychological factors that are frequently studied in the educational research field. Self-efficacy in the current study refers to prospective teachers’ confidence in their abilities, and prospective teachers need to have strong efficacy beliefs to continue teaching [
7]. Self-efficacy beliefs are believed to play an active role in the interpretation and assimilation of the information presented in teacher training programs [
8]. Attitude toward the teaching profession, and academic amotivation, on the other hand, are two of the significant variables that can affect success in teaching profession. Lack of motivation, or amotivation as used in the current study, is recognized as an important problem for teacher and student success. A high level of academic amotivation can also lead to feelings of demoralization, dissatisfaction, and helplessness, which can in turn prevent productivity and emotional well-being [
9]. In addition to these variables, classroom management anxiety, which refers to the concerns about maintaining classroom order and performing educational activities more effectively, can also be a significant barrier for successful enactment of teaching profession, and needs to be rigorously addressed during teacher education. Although undergraduate teacher education programs usually offer several courses on classroom management and student attitudes/behaviors, it is still considered that these courses could be insufficient to fully equip prospective teachers with classroom management skills [
10].
A comprehensive review of the relevant literature shows that research addressing prospective mathematics teachers’ perceived self-efficacy, their attitude toward the teaching profession, their academic amotivation, and their classroom management anxiety, all of which have significant effects on the professional lives of teachers, is very limited. In addition, most of the studies in the literature are based on the opinions of teachers who are on active duty. With this regard, studies addressing the self-efficacy beliefs, the attitude toward the profession, academic motivation/amotivation, and classroom management anxiety of prospective teachers would contribute greatly to our understanding, and some improvements could be made in teacher education programs with this respect.
4. Results
The relationship between the instruments used in the study was evaluated with Pearson correlation analysis and the results are presented in
Table 2.
Table 2 shows that academic amotivation correlates negatively with academic self-efficacy (r = −0.399
p < 0.01), negatively with attitude toward the teaching profession (r = −0.394,
p < 0.01), and positively with classroom management anxiety (r = 0.075,
p < 0.01). A statistically significant correlation was found between academic self-efficacy and attitude toward the teaching profession (r = 0.177,
p < 0.01), and a negative correlation between academic self-efficacy and classroom management anxiety (r = −0.001,
p < 0.01). Finally, a significant positive correlation was found between attitude toward the teaching profession and classroom management anxiety (r = 0.342,
p < 0.01). As can be seen, the correlations between the variables vary between −0.394 and 0.342, which indicates that there is no multicollinearity problem.
It was also evaluated whether there was a multicollinearity problem between the independent variables in the measurement model. Multicollinearity can cause erratic estimates and erroneous variances that affect confidence intervals and hypothesis testing. Evaluation of the correlation matrix may be helpful in detecting multicollinearity, but it is not sufficient [
88]. Examining VIF (Variance Inflation Factor) and Tolerance values are among the preferred methods to evaluate whether there is multicollinearity among the variables. The tolerance value should not be less than 0.1, and thus the VIF value should not be greater than 10 [
96,
99]. VIF and Tolerance values of the independent variables are presented in
Table 3.
Table 3 shows that there is no multicollinearity problem among the variables evaluated in the study. In addition, skewness and kurtosis values were evaluated to determine whether the research data exhibited a normal distribution. Skewness and kurtosis values are expected to be between −2 and +2 to confirm the normal distribution of the data [
97,
98]. The mean, standard deviation, skewness and kurtosis values of the variables in the measurement model are presented in
Table 4.
Table 4 shows that the skewness and kurtosis values for each variable in the study are within acceptable limits and the data exhibits a normal distribution. Moreover, academic amotivation scores range from 1 to 5.56, and the opinions of the participants have an average point value of 2.41 (SD = 1.17). The academic self-efficacy scores are between 1.71 and 4.14, and the arithmetic mean score for academic self-efficacy is
X =2.99, with a standard deviation value of 0.497. Scores on the scale of attitude toward the teaching profession vary between 2.0 and 5.0, and the arithmetic mean value is
X = 4.14, with a standard deviation score of 0.557. The results indicate that participants have a positive attitude toward the teaching profession. Scores on classroom management anxiety vary between 2.14 and 5.00, and have an arithmetic mean score of 3.96, with a standard deviation score of 0.660. It is noteworthy that the participants’ views on classroom management anxiety is quite high.
The scores for the attitude toward the teaching profession and for classroom management anxiety are very close. The high scores on the attitude toward the teaching profession are pleasing with regard to its potential positive contribution to the education system. The higher scores for classroom management anxiety, on the other hand, might indicate that classroom management courses could not be sufficient for them to build confidence in these skills or they may have experienced classroom management anxiety after they engaged in practice teaching in a real classroom setting during their internship. In fact, classroom context is often defined with a living organism metaphor to indicate its ever-changing and unique nature, and in these circumstances, offering a standardized prospectus for classroom management is almost impossible. As a result, higher levels of classroom management anxiety could be understood during the initial contact of prospective mathematics teachers with real classroom context. The arithmetic mean score of the academic self-efficacy scale calculated as X = 2.99 is another significant finding, which might indicate that courses offered in these education faculties were not sufficient to support the academic self-efficacy of prospective mathematics teachers.
4.1. Assessment of Measurement Model
The confirmatory factor analysis (CFA) of the measurement tools used in SEM research need to be repeated with the existing data set. Construct validity was evaluated using mean variance (AVE) and composite reliability (CR). The composite reliability (CR) score should be greater than the acceptable value of 0.7 for all factors and the mean variance (AVE) extracted for all variables should be greater than 0.5 [
100,
101]. AVE and CR values are presented in
Table 5, and fit indices are presented in
Table 6.
Table 5 shows that Cronbach’s Alpha scores range from 0.859 to 0.953. AVE scores are above 0.50, and CR scores are above 0.70 for each construct. These results indicate the consistency of the constructs, and show that the scales used in the research have convergent validity.
The academic amotivation scale (AA) consists of 16 items and four dimensions: “Task Value”, “Talent beliefs”, “Task characteristics” and “Effort beliefs”. The measurement model of the academic amotivation scale (AA), which includes 4 items in each dimension, was tested with the second level CFA. All the paths related to the items and dimensions in the scale were found to be statistically significant at the 0.01 level. The fit index values are as follows: χ2/df = 2.126, GFI = 0.904 AGFI = 0.902, IFI = 0.948, TLI = 0.937, CFI = 0.947, and RMSEA = 0.077. The CFA results show that the x2/sd value is in the perfect fit range, and the GFI, IFI, TLI, CFI, RMSEA values are in the acceptable range.
The academic self-efficacy scale (ASE) consists of 7 items. With the first level CFA, all the paths except the 7th item in the scale were found to be statistically significant at the 0.01 level. The fit index values for the scale were calculated as χ2/df = 2.102, GFI = 0.960, IFI = 0.963, CFI = 0.962, all values are in perfect agreement, and AGFI = 0.914, TLI = 0.938, and RMSEA = 0.076 are in the acceptable range.
Attitude toward the teaching profession scale (ATTP) is unidimensional with 12 items. With the first level CFA, all the paths related to the 12 items in the scale are statistically significant at the 0.01 level. The fit index values for the attitude toward the teaching profession scale were calculated as χ2/df = 3.337, GFI = 0.899 AGFI = 0.898, IFI = 0.923, TLI = 0.907, CFI = 0.926, and RMSEA = 0.078. These results indicate that the values of fit indices are in the acceptable range.
The classroom management anxiety scale (CMC) is a 23-item and three-dimensional scale, and the measurement model was tested with the second-level CFA. All the paths related to 23 items and three factors in the scale are significant at the 0.01 level. The CFA results indicate a perfect fit with fit index values of χ2/df = 2.971, GFI = 0.906 AGFI = 0.902, IFI = 0.916, TLI = 0.904, CFI = 0.916, and RMSEA = 0.079. As can be seen, the χ2/df value shows a perfect fit, and the GFI, AGFI, IFI, TLI, CFI, and RMSEA values are within the acceptable range.
4.2. Assessment of the Structural Model
In line with the purpose of the research, the hypothetical model shown in
Figure 1 was tested by SEM. In other words, the relationships between academic motivation (AA), academic self-efficacy (ASE), attitude toward the teaching profession (ATTP) and classroom management anxiety (CMC) were analyzed using SEM. Before the model was tested, the modifications made in the measurement models to increase the fit indices of the scales were included in the model. Apart from these modifications, no other modifications were deemed necessary in the model. As a result of the analysis, the standardized path coefficient between the academic self-efficacy scale (ASE) and the academic amotivation scale (AA) was found to be −0.40, and the standardized path coefficient with the attitude toward the teaching profession scale (ATTP) was 0.19. The standardized path coefficient between the attitude toward the teaching profession scale (ATTP) and the academic amotivation scale (AA) was −0.37, and the standardized path coefficient with the classroom management anxiety scale (CMC) was 0.31. All the other paths were found to be statistically significant at the 0.01 level.
The fit indices for the hypothetical model were calculated as χ
2/df = 1.961, GFI = 0.898, AGFI = 0.897, IFI = 0.927, TLI (NNFI) = 0.938, CFI = 0.949, and RMSEA = 0.071. The calculated values indicate that the fit indices for the model are in the acceptable range. As a result, it can be said that the proposed hypothetical model is confirmed. Structural equation modelling tested in the study is shown in
Figure 2.
As it can be seen on
Table 7 that the standardized regression coefficient between academic self-efficacy and attitude toward the teaching profession is 0.19, which indicates that the increase in the academic self-efficacy scores of prospective mathematics teachers will also increase the scores of their attitude toward the teaching profession. In other words, there is a positive and statistically significant relationship between these two variables. Prospective mathematics teachers’ academic self-efficacy explains 14.50% of the total variance of their attitudes toward the teaching profession. Kline [
90] stated that an effect size of around 0.10 is considered small, around 0.30 moderate, and around 0.50 large. Accordingly, the standardized regression coefficient between both variables indicates a small effect size. However, the results confirm that the academic self-efficacy of prospective mathematics teachers positively and significantly predicts their attitude toward the teaching profession.
The standardized regression coefficient between the academic self-efficacy levels of prospective mathematics teachers and their academic amotivation levels is −0.40, which indicates that there is a negative correlation between academic self-efficacy and academic amotivation. These results show that the decrease in the academic amotivation of prospective mathematics teachers causes an increase in their academic self-efficacy. Prospective mathematics teachers’ academic self-efficacy explains the 33.90% of total variance in their academic amotivation. The standardized regression coefficient between both variables indicates the presence of a moderate effect size. This result shows that prospective mathematics teachers’ academic self-efficacy predicts their academic amotivation negatively and significantly.
In
Figure 2, the standardized regression coefficient between attitude toward the teaching profession and academic amotivation is shown as −0.37, which shows that there is a negative correlation between these two variables. In other words, the increase in the scores of the prospective mathematics teachers’ attitude toward the teaching profession causes a decrease in the scores of their academic amotivation. A standardized regression coefficient of −0.37 means that the effect size is moderate in the relationship between both variables. Prospective mathematics teachers’ scores on the attitude toward the teaching profession explain the 33.90% of total variance in their academic amotivation. In light of these results, it can be said that prospective mathematics teachers’ attitude toward the teaching profession predicts their academic amotivation negatively and significantly.
Figure 2 also shows that the standardized regression coefficient between prospective mathematics teachers’ classroom management anxiety and their attitude toward the teaching profession is 0.31. Classroom management anxiety explains 32.8% of the total variance of their attitude toward the teaching profession. These results indicate that there is a positive and moderate relationship between prospective mathematics teachers’ classroom management anxiety and their attitude toward the teaching profession. The result might imply that despite their classroom management anxiety, prospective mathematics teachers put effort in overcoming their anxiety and maintain their positive attitude toward the teaching profession. In addition, prospective mathematics teachers begin to observe or practice in-class teaching during the third and fourth years of teaching, and their first encounter with the real classroom settings could have increased their classroom management anxiety.
As presented in
Table 8, there is a direct correlation between prospective mathematics teachers’ academic self-efficacy (ASE) levels and their academic amotivation (AA) levels, and between their academic self-efficacy (ASE) levels and their attitude toward the teaching profession (ATTP). However, when the mediating effect of the attitude toward the teaching profession (ATTP) in the relationship between academic self-efficacy (ASE) and academic amotivation (AA) was analyzed, it was found that the attitude toward the teaching profession (ATTP) did not have a direct effect on these variables (β = 0.071;
t= −0.538;
p= 0.031 > 0.01).
5. Discussion
The current study evaluated the relationships between prospective mathematics teachers’ academic amotivation, academic self-efficacy, attitude toward the teaching profession, and classroom management anxiety. The structural equation model (SEM) was used to determine the hypothetical relationships between the variables and the conceptual model was tested using the path analysis.
The findings showed that prospective mathematics teachers’ attitude toward the teaching profession was considerably positive, which indicated that these prospective mathematics teachers had a significant intention to practice teaching profession. Eroglu and Unlu [
102] also observed eagerness to perform teaching profession in their study on a similar group of prospective teachers. These findings are significant considering that positive attitude toward the teaching profession or the willingness to do this profession is key to effective classroom management [
103]. Yet, the current study revealed that prospective mathematics teachers experienced a high level of classroom management anxiety. In fact, past research supports this finding indicating that classroom management was a major concern for both prospective and novice teachers. Novice teachers often reported that classroom management issues led to poorer teaching performance, and thus they needed more support to employ better classroom management [
82]. On the other hand, classroom management is considered to be a core competence in teaching profession [
67,
104] since achievement of instructional goals depends heavily on a teachers’ capability to perform effective classroom management and to take best care of students in the classroom [
84,
105,
106]. Effective classroom management is key to creating the positive learning environment necessary for the cognitive and affective development of students [
83,
107,
108]. For this reason, it would be beneficial to develop prospective mathematics teachers’ classroom management skills starting from the early phases of teacher training so that they are better equipped to cope with their classroom management anxiety [
67]. As emphasized by Eranıl et al. [
109], revising the teacher education curricula in education faculties in order to better develop the classroom management competencies of prospective teachers, and preparing more realistic guidelines for the enhancement and evaluation of prospective mathematics teachers’ school practice experiences could help achieve better results in this regard.
The current study also revealed a statistically significant relationship between prospective mathematics teachers’ academic self-efficacy and their attitude toward the teaching profession. The academic self-efficacy of these prospective mathematics teachers was found to positively and significantly predict their attitude toward the teaching profession. There are other studies in the literature that support our findings. For instance, in the study conducted by Üstüner [
110], the self-efficacy beliefs of prospective teachers were determined to have a positive effect on their attitude toward the teaching profession. In the same study, it was stated that implementation of a teacher training curriculum that would enhance prospective mathematics teachers’ self-efficacy would also help develop a more positive attitude toward the teaching profession. In the same vein, a significant relationship between prospective mathematics teachers’ self-efficacy beliefs and their attitude toward the teaching profession was determined by several studies [
42,
54,
56,
111]. Based on their findings, these researchers also emphasized that improving students’ self-efficacy would help improve their attitude toward the teaching profession. In another study, Özgenel and Deniz [
112] concluded that the attitudes of education faculty students toward the teaching profession significantly predicted their academic self-efficacy levels, and the positive attitude of these students was associated with their willingness and commitment to practicing the profession in the future. The researchers underlined that teachers with a positive attitude toward the teaching profession and a high level of academic self-efficacy can maximize the quality of their instruction.
With regard to academic self-efficacy and academic amotivation, the current analysis revealed a negative relationship. In other words, as the academic amotivation of prospective mathematics teachers decreased, their academic self-efficacy increased. The relevant literature provides several findings regarding the relationship between academic self-efficacy and academic (a)motivation [
113]. For instance, in the early literature, Pajares [
8] stated that there was a strong relationship between students’ self-efficacy, motivation and academic achievement. In a recent study conducted by Sıvacı and Coplu [
114], the academic self-efficacy of university students was found to have a significant effect on their academic motivation. Fulgencio et al. [
115] stated that lack of academic motivation resulted in academic failure, and emphasized that lack of motivation negatively affected productivity, caused feelings of disappointment and frustration, and worsened students’ general well-being. In fact, motivation is considered one of the fundamental requirements for learning. Cognitive and affective learning as the ultimate goal of education depends much heavily on students’ motivation or lack of motivation [
116], and prospective teachers with a high sense of motivation and self-efficacy would be more likely to better support their students’ learning process when they start working. Çağirgan and Poyraz [
117] support this view, arguing that students perform better when they have teachers with high self-efficacy beliefs based on their research findings. For this reason, particular attention should be given to developing both the motivation and self-efficacy of prospective teachers, and teacher education programs should be carefully designed in this regard.
Another finding of the current study was that there was a negative relationship between prospective mathematics teachers’ attitude toward the teaching profession and their academic amotivation. In other words, as prospective mathematics teachers attitude scores toward the teaching profession increased, their academic amotivation scores decreased. Similar findings were also presented by some previous research. For instance, Zembat et al. [
118] concluded that prospective teachers with a positive attitude toward the teaching profession had higher motivation scores, and determined that a positive attitude toward the teaching profession was particularly related to intrinsic motivation. They also emphasized that love of teaching predicted prospective mathematics teachers’ positive attitude toward the teaching profession [
118]. Similarly, the findings of Alkhateeb’s [
119] research revealed that university students’ positive attitude toward the teaching profession was closely related to their liking of children. From the perspective of self-determination theory, these findings support the assumption that the value placed on a task or to the intrinsic/extrinsic rewards provided by its enactment would decrease amotivation and related task-avoidance [
18,
20]. When this is combined with ability beliefs (i.e., self-efficacy), individuals are considered to become more motivated to perform a certain act. Accordingly, prospective teachers displaying more positive attitudes toward their profession are more likely to value their professional roles and their outcomes, and therefore, to feel more motivated to both develop their professional knowledge and skills, and also to practice the profession in the future. The study by Saks et al. [
120] supports the same argument from a different perspective. These researchers found that love of children could not suffice in supporting prospective students’ positive attitude toward the profession in the Estonian sample. Their research revealed that education faculty students did not find the teaching profession attractive enough as they perceived it as a difficult and low-paid job, so they displayed lower motivation. These findings, considered altogether, indicate that developing prospective mathematics teachers’ attitudes toward teaching as their future job not only depends on their interest and love of children but also the perceived positive image and value of the job. In addition, although early motivation does not guarantee career long motivation, it is still noteworthy that the development of teacher motivation begins during initial teacher education [
54,
121].
With regard to prospective mathematics teachers’ attitude toward the teaching profession, the current study also found that their attitude was positively related to their classroom management anxiety. The finding indicates that prospective mathematics teachers with a positive attitude toward teaching experience higher levels of classroom management anxiety. In fact, this could be a surprising but also an expectable result as anxiety does not always produce negative results, contrary to popular belief; mild or even moderate anxiety can be a driving force that motivates students to do new things and to achieve success [
122]. For students, a moderate level of anxiety can motivate them to study and improve their performance. Keskin [
123], who determined in his study that prospective teachers had a moderate level of anxiety toward the teaching profession, also supported this argument. Prospective teachers with a moderate level of anxiety could be more likely to make much effort to employ better teaching performance. In addition, it is often stated that classroom management is significantly related to the psychological and attitudinal aspects of teaching profession. For instance, Atici [
124] reported that prospective mathematics teachers’ felt confident about starting their teaching career and had a positive attitude toward the profession in this regard, but still they had significant concerns about their classroom management capabilities such as understanding children, coping with undesirable behaviors, and using modern teaching methods effectively. Classroom management courses in teacher training programs aim to develop prospective mathematics teachers’ capabilities to employ proactive management practices in the classroom as well as preparing them to handle sudden and unexpected situations [
125]. However, it is stated that when effective classroom management education cannot be fully integrated into teacher training programs [
126], prospective teachers might not develop classroom management self-efficacy, and may eventually tend to dislike or even quit the profession after a while [
127]. Therefore, classroom management anxiety combined with a negative attitude toward teaching could result in a negative classroom climate that would harm the well-being and motivation of both teachers and students [
128]. However, as emphasized earlier by Brouwers and Tomic [
105], teacher education programs are often not sufficient to eliminate classroom management anxiety of teachers despite offering several courses and professional development activities. As supported by the findings of a recent study by Adams et al. [
67], the development of classroom management skills is not only knowledge-driven but also feedback, inspiration and practice-driven, and teacher education programs should address all these aspects.
Limitations and Implications
Although the current study yielded significant results that would contribute both to the theory and practice of teaching and teacher education, it also bears some limitations. One limitation is that the participants of the current study are all from primary education mathematics teaching departments, so the results could be generalized to the prospective teachers in this field. The participants were all selected from the third and fourth grade students because in Turkey, prospective teachers begin visiting schools during the 3rd grade, and they only observe lessons. During the fourth grade they start teaching with the guidance of a mentor teacher. These should be taken into consideration as they might have affected the results. A similar study conducted with only prospective teachers on internship could yield different results. Another limitation of the current study is that it conducted an overall analysis of data collected from the seven universities to achieve the required sample size. Hence, the analysis did not yield results pertinent to the cohort of prospective teachers from each university; yet slight differences might be observed in the enactment of teacher training courses in these universities. The same holds true for the demographics of the participants.
The findings of the current study have implications for the future investigations on the psychological states of prospective mathematics teachers. For one thing, despite supporting previous arguments that prospective teachers experience classroom management anxiety, the current study found that this anxiety could be related to prospective mathematics teachers’ attachment to the teaching profession, suggesting that the valence of teaching could elevate their concerns whether they will be able to employ the necessary strategies to enact the profession in the best way possible. These postulations warrant additional research to be able to make more assertive generalizations. Furthermore, the current study suggested that developing prospective mathematics teachers’ academic self-efficacy and motivation during their initial education could help develop a positive attitude toward the profession, which is also significant for their adherence to the code of professional conduct [
56]. Future studies could address this relationship with the integration of other related variables such as factors effecting intrinsic/extrinsic motivation or other factors influencing attitudes toward teaching such as the perceived image or value of teaching profession, and focus on their moderating/mediating effects. Similarly, the findings of the current study could be supported through qualitative studies, which could yield in-depth understanding into these relationships, and could contribute to building newer theories.
The current study also suggests implications for the development of teacher education programs. The findings showed that prospective mathematics teachers’ motivation and their academic self-efficacy during the preparation stage could also have significant implications for their future practice of the profession because their beliefs and motivation in teaching are formed to a greater extent during these initial stages of teacher education, and determines the quality of their future performance [
60]. Considering the fast-changing and ever-demanding nature of current educational environments, teaching education programs should be periodically evaluated and updated to support the holistic development of prospective mathematics teachers behaviorally, attitudinally, and psychologically. From the perspective of the social cognitive theory, academics teaching in the faculties of education should provide prospective teachers with moderately challenging but achievable tasks (enacted mastery experience), create opportunities for them to observe successful role models (vicarious experience), provide constructive and encouraging feedback on their in-class practices (social persuasion), and create a supportive environment to reduce their tension and stress (addressing affective and physiological states). Thus, they could support the self-efficacy of their students as prospective teachers, increase their motivation and engagement with professional development courses, and help them overcome their classroom management anxiety [
129]. In addition, satisfying students’ autonomy needs and giving them responsibility over the outcomes of their acts would also support their belief in their capability to perform better and reach desired outcomes, which eventually enhance their academic self-efficacy, and motivation [
20,
46].