Introduction: Given the critical importance of math proficiency, considerable research has focused on identifying the factors that contribute to math achievement. Extensive research has demonstrated a negative correlation between math performance and mathematics anxiety, that is the anxiety that appears specifically when the subject has to deal with numbers. However, it is known that there are students who, despite having a high level of mathematics anxiety, manage to achieve adequate math performance. The present report focused specifically on the competence acquired by students characterized by a high level of mathematics anxiety. Materials and Method: The study involved students who were followed in their first year of secondary school. Students were assessed on two separate occasions: first at the end of the first term, and then again at the end of the second term. Based on the scores obtained in the anxiety questionnaire, students scoring above the mean by one standard deviation were categorized as having high levels of anxiety. Furthermore, based on the results obtained in the math test conducted at the end of the year, these high mathematics anxiety students were divided into two subgroups in relation to whether they had acquired the minimum levels of competence required by the school curriculum. Results: Pearson’s correlation coefficient shows an inverse relationship between the level of mathematics anxiety and the score obtained in the math test. However, the subgroup analysis shows that, compared to their peers who had not acquired the expected skills, students who are both highly math anxious and good math achievers present an equivalent high fear of judgement but a significantly higher interest in studying mathematics. Mathematics anxiety, even when high, does not necessarily prevent the acquisition of math skills. Discussion: The data are discussed in light of the different interpretations that students can provide of their state of anxiety when faced with the difficulty of the task to be solved: it is likely that interest in studying mathematics can counterbalance the fear of an unwanted judgment. Conclusions: Ultimately, results suggest taking proper account of individual heterogeneity of math anxious students and highlight the need to adopt a teaching approach that considers individual differences in the management of emotions.
| Published in | Psychology and Behavioral Sciences (Volume 14, Issue 3) |
| DOI | 10.11648/j.pbs.20251403.15 |
| Page(s) | 86-97 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2025. Published by Science Publishing Group |
Mathematics Anxiety, AMAS, Math Achievement, Adolescence, Educational Psychology, Mathematics Performance, Secondary School Students
| [1] | Attard, C. (2013). “If I had to pick any subject, it wouldn’t be maths”: foundations for engagement with mathematics during the middle years. Mathematics Education Research Journal, 25: 569–587. |
| [2] | Brown, M., Brown, P., & Bibby, T. (2008). “I would rather die”: reasons given by 16-year-olds for not continuing their study of mathematics. Research in Mathematics Education, 10: 3–18. |
| [3] | Carey, E., Devine, A., Hill, F., Dowker, A., McLellan, R., & Szucs, D. (2019). Understanding Mathematics Anxiety: Investigating the experiences of UK primary and secondary school students. Cambridge, UK: Centre for Neuroscience in Education. |
| [4] | Caviola, S., Toffalini, E., Giofrè, D., Ruiz, J. M., Szűcs, D., & Mammarella, I. C. (2021). Math performance and academic anxiety forms, from sociodemographic to cognitive aspects: A meta-analysis on 906,311 Participants. Educational Psychology Review, 34: 363–399. |
| [5] | Radević, L., & Milovanović, I. (2024). Current Trends in Math Anxiety Research: a Bibliometric Approach. International Journal of Science and Mathematics Education, 22: 1345–1362. |
| [6] | Zhang, J., Zhao, N., & Kong, Q. P. (2019). The Relationship Between Math Anxiety and Math Performance: A Meta-Analytic Investigation. Frontiers in Psychology, 10: 1613. |
| [7] | Richardson, F. C., & Suinn, R. M. (1972). The mathematics anxiety rating scale: Psychometric data. Journal of Counceling Psychology 19: 551–4. |
| [8] | Gough, M. F. (1954). Why failures in mathematics? Mathemaphobia: Causes and treatments. The Clearing House: A Journal of Educational Strategies, Issues and Ideas, 28: 290–294. |
| [9] | Hembree, R. (1990). The nature, effects, and relief of mathematics anxiety. Journal for Research in Mathematics Education, 21: 33–46. |
| [10] | Szczygieł, M., & Pieronkiewicz, B. (2021). Exploring the nature of math anxiety in young children: Intensity, prevalence, reasons. Mathematical Thinking and Learning, 1-19. |
| [11] | Artemenko, C., Daroczy, G., & Nuerk, H-C. (2015). Neural correlates of math anxiety – an overview and implications. Frontiers in Psychology, 6: 1333. |
| [12] | Lyons, I. M., & Beilock, S. L. (2012a). When math hurts: math anxiety predicts pain network activation in anticipation of doing math. PloS One, 7(10): e48076. |
| [13] | Suárez-Pellicioni, M., Núñez-Peña, M. I., & Colomé, À. (2016). Math anxiety: a review of its cognitive consequences, psychophysiological correlates, and brain bases. Cognitive, Affective and Behavioral Neuroscience, 16: 3–22. |
| [14] | Supekar, K., Iuculano, T., Chen, L., & Menon, V. (2015). Remediation of childhood math anxiety and associated neural circuits through cognitive tutoring. The Journal of Neuroscience, 35: 12574–83. |
| [15] | Young, C. B., Wu, S. S., & Menon, V. (2012). The neurodevelopmental basis of math anxiety. Psychological Science, 23: 492–501. |
| [16] | Ashcraft, M. H. (2002). Math anxiety: personal, educational, and cognitive consequences. Current Direction in Psychological Science, 11: 181–185. |
| [17] | Barroso, C., Ganley, C. M., McGraw, A. L., Geer, E. A., Hart, S. A., & Daucourt, M. C. (2021). A meta-analysis of the relation between math anxiety and math achievement. Psychological Bulletin, 147: 134-168. |
| [18] | Demedts, F., Reynvoet, B., Sasanguie, D., & Depaepe, F. (2022). Unraveling the role of math anxiety in students’ math performance. Frontiers in Psychology, 13: 979113. |
| [19] | Hill, F., Mammarella, I. C., Devine, A., Caviola, S., Passolunghi, M. C., & Szűcs, D. (2016). Maths anxiety in primary and secondary school students: Gender differences, developmental changes and anxiety specificity. Learning and Individual Differences 48: 45-53. |
| [20] | Ma, X. (1999). A meta-analysis of the relationship between anxiety toward mathematics and achievement in mathematics. Journal for Research in Mathematics Education, 30: 520-540. |
| [21] | Sokolowski, H. M., & Ansari, D. (2017). Who is afraid of math? What is math anxiety? And what can you do about it. Frontiers. Young Minds, 5: 57. |
| [22] | Cipora, K., Santos, F. H., Kucian, K., & Dowker, A. (2021). Mathematics anxiety – where are we and where shall we go? Annals of the New York Academy of Sciences, 1513: 10–20. |
| [23] | Dowker, A., Sarkar, A., & Looi, C. Y. (2016). Mathematics anxiety: What have we learned in 60 years? Frontiers in Psychology, 7: 508. |
| [24] | Maloney, E. A., & Beilock, S. (2012). Math anxiety: who has it, why it develops, and how to guard against it. Trends in Cognitive Sciences, 16: 404–6. |
| [25] | Eden, C., Heine, A., & Jacobs, A. M. (2013). Mathematics anxiety and its development in the course of formal schooling—a review. Psychology, 4: 27-35. |
| [26] | Hopko, D. R., Mahadevan, R., Bare, R. L., & Hunt, M. A. (2003). The Abbreviated Math Anxiety Scale (AMAS): Construction, validity, and reliability. Assessment 10: 178–82. |
| [27] | Cipora, K., Szczygieł, M., Willmes, K., & Nuerk, H. C. (2015). Math anxiety assessment with the abbreviated math anxiety scale: Applicability and usefulness. Insights from the Polish Adaptation. Frontiers in Psychology 6: 1833. |
| [28] | Martín-Puga, M. E., Justicia-Galiano, M. J., Gómez-Pérez, M. M., & Pelegrina S. (2022). Psychometric Properties, Factor Structure, and Gender and Educational Level Invariance of the Abbreviated Math Anxiety Scale (AMAS) in Spanish Children and Adolescents. Assessment, 29: 425-440. |
| [29] | Vahedi, S., & Farrokhi, F. (2011). A confirmatory factor analysis of the structure of abbreviated math anxiety scale. Iranian Journal of Psychiatry, 6: 47-53. |
| [30] | Caviola, S., Primi, C., Chiesi, F., & Mammarella, I. C. (2017). Psychometric properties of the Abbreviated Math Anxiety Scale (AMAS) in Italian primary school children. Learning and Individual Differences 55: 174-182. |
| [31] | Primi, C., Busdraghi, C., Tommasetto, C., Morsanyi, K., & Chiesi, F. (2014). Measuring math anxiety in Italian college and high school students: Validity, reliability and gender invariance of the Abbreviated Math Anxiety Scale (AMAS). Learning and Individual Differences 34: 51–6. |
| [32] | Primi, C., Donati, M. A., Izzo, V. A., Guardabassi, V., O'Connor, P. A., Tomasetto, C., & Morsanyi, K. (2020). The Early Elementary School Abbreviated Math Anxiety Scale (the EES-AMAS): A New Adapted Version of the AMAS to Measure Math Anxiety in Young Children. Frontiers in Psychology, 11: 1014. |
| [33] | Carey, E., Devine, A., Hill, F., & Szűcs, D. (2017). Differentiating anxiety forms and their role in academic performance from primary to secondary school. PLoS One 12: e0174418. |
| [34] | Buratta, L., Piccirilli, M., Lanfaloni, G. A., Ilicini, S., Bedetti, C., & Elisei, S. (2019). Mathematics anxiety and cognitive performance in adolescent students. Psychiatria Danubina 31: 479-485. |
| [35] | Piccirilli, M., Lanfaloni, G. A., Buratta, L., Ciotti, B., Lepri, A., Azzarelli, C., Ilicini, S., D’Alessandro, P., & Elisei, S. (2023). Assessment of math anxiety as a potential tool to identify students at risk of poor acquisition of new math skills: longitudinal study of grade 9 Italian students. Frontiers in Psychology, 14: 1185677. |
| [36] | Lee, J. (2009). Universals and specifics of math self-concept, math self-efficacy, and math anxiety across 41 PISA 2003 participating countries. Learning and Individual Differences, 19: 355–365. |
| [37] | Devine, A., Hill, F., Carey, E., & Szűcs, D. (2018). Cognitive and Emotional Math Problems Largely Dissociate: Prevalence of Developmental Dyscalculia and Mathematics Anxiety. Journal of Educational Psychology, 110: 431-444. |
| [38] | Wang, Z., Lukowski, S. L., Hart, S. A., Lyons, I. M., Thompson, L. A., Kovas, Y., Mazzocco, M. M., Plomin, R., & Petrill, S. A. (2015). Is Math Anxiety Always Bad for Math Learning? The Role of Math Motivation. Psychological Science, 26: 1863-1876. |
| [39] | Lanfaloni, G. A., Piccirilli, M., D'Alessandro, P., Ilicini, S., Baccarelli, P., & Elisei, S. (2023). The Relationship Between Math Anxiety and Math Achievement: Differentiating the Role of Learning Math Anxiety and Math Evaluation Anxiety. Psychiatria Danubina, 35: 53-56. |
| [40] | Piccirilli, M. (2024). Math Anxiety and Poor Math Competence: A Longitudinal Investigation of Students Failing to Achieve the Math Skills Required by School Curricula. Journal of Clinical Psychology and Neurology, 2: 1-5. |
| [41] |
Invalsi open. (2022). Rapporto nazionale 2022.
https://www.invalsiopen.it/risultati/risultati-prove-invalsi-2022/ |
| [42] | Wang, Z., Rimfeld, K., Shakeshaft, N., Schofield, K., & Malanchini, M. (2020). The longitudinal role of mathematics anxiety in mathematics development: Issues of gender differences and domain-specificity. Journal of Adolescence, 80: 220-232. |
| [43] | Baccaglini-Frank, A., Perona, M., Bettini, P., Caviola, S., & Lucangeli, D. (2013). Test ABCA 14–16. Prove di abilità di calcolo avanzato per la scuola secondaria di secondo grado. Trento (Italy): Erickson Ed. |
| [44] | McCloskey, M., Caramazza, A., & Basili, A. (1985). Cognitive mechanisms in number processing and calculation: evidence from dyscalculia. Brain Cognition, 4: 171–196. |
| [45] | Jamovi. (Version 2.3) [Computer Software] 2022. |
| [46] | Field, A, P., Evans, D., Bloniewski, T., & Kovas, Y. (2019). Predicting maths anxiety from mathematical achievement across the transition from primary to secondary education. Royal Society Open Science, 6: 191459. |
| [47] | Järvelä, S. (2011). Social and Emotional Aspects of Learning. Amsterdam: Elsevier Academic. Press. |
| [48] | Namkung, J. M., Peng, P., & Lin, X. (2019). The relation between mathematics anxiety and mathematics performance among school-aged students: A meta-analysis. Review of Educational Research, 89: 459-496. |
| [49] | Henschel, S., & Roick, T. (2020). The Multidimensional Structure of Math Anxiety Revisited. European Journal of Psychological Assessment, 36: 123–135. |
| [50] | Lindberg, S. M., Hyde, J. S., Petersen, J. L., & Linn, M. C. (2010). New trends in gender and mathematics performance: a meta-analysis. Psychological Bulletin, 136: 1123–1135. |
| [51] | Devine, A., Fawcett, K., Szűcs, D., & Dowker, A. (2012). Gender differences in mathematics anxiety and the relation to mathematics performance while controlling for test anxiety. Behavioral and Brain Functions 8: 33. |
| [52] | Goetz, T., Bieg, M., Lüdtke, O., Pekrun, R., & Hall, N. C. (2013). Do Girls Really Experience More Anxiety in Mathematics? Psychological Science 24: 2079–87. |
| [53] | Chipman, S. F., Krantz, D. H., & Silver, R. (1992). Mathematics anxiety and science careers among able college women. Psychological Science, 3: 292–296. |
| [54] | Lyons, I. M., & Beilock, S. L. (2012b) Mathematics anxiety: Separating the math from the anxiety. Cerebral Cortex, 22: 2102–2110. |
| [55] | Pizzie, R. G., & Kraemer, D. J. (2021). The association between emotion regulation, physiological arousal, and performance in math anxiety. Frontiers in Psychology, 12: 639448. |
| [56] | Brunyé, T. T., Mahoney, C. R., Giles, G. E., Rapp, D. N., Taylor, H. A., & Kanarek, R. B. (2013). Learning to relax: Evaluating four brief interventions for overcoming the negative emotions accompanying math anxiety. Learning and Individual Differences 27: 1–7. |
| [57] | García-Suárez, P. C., Ramos-Álvarez, M. M., & Fernández-Martín, P. (2021). Emotional self-regulation and academic performance in university students with mathematics anxiety. Journal of Numerical Cognition, 7(1), 53-72. |
| [58] | Mammarella, I. C., Caviola, S., Giofrè, D., & Borella, E. (2018). Separating math from anxiety: The role of inhibitory mechanisms. Applied Neuropsychology, Child. 7: 342-353. |
| [59] | Pelegrina, S., Justicia-Galiano, M. J, Martín-Puga, M. E., & Linares, R. (2020). Math Anxiety and Working Memory Updating: Difficulties in Retrieving Numerical Information from Working Memory. Frontiers in Psychology, 11: 669. |
| [60] | Van den Bussche, E., Vanmeert, K., Aben, B., & Sasanguie, D. (2020). Too anxious to control: the relation between math anxiety and inhibitory control processes. Sci Rep. 10: 19922. |
| [61] | Aupperle, R. L., Melrose, A. J., Francisco, A., Paulus, M. P., & Stein, M. B. (2015). Neural substrates of approach-avoidance conflict decision-making. Human Brain Mapping, 36: 449-462. |
| [62] | Mattarella-Micke, A., Mateo, J., Kozak, M. N., Foster, K., & Beilock, S. L. (2011). Choke or thrive? The relation between salivary cortisol and math performance depends on individual differences in working memory and math-anxiety. Emotion. 11: 1000-1005. |
| [63] | Jamieson, J. P., Mendes, W. B., Blackstock, E., & Schmader, T. (2010). Turning the knots in your stomach into bows: reappraising arousal improves performance on the GRE. Journal of Experimental Social Psychology 46: 208–212. |
| [64] | Yerkes, R. M., & Dodson, J. D. (1908). The relation of strength of stimulus to rapidity of habit-formation. Journal of Comparative Neurology and Psychology, 18: 459-482. |
| [65] | Pletzer, B., Kronbichler, M., Nuerk, H.-C., & Kerschbaum, H. H. (2015). Mathematics anxiety reduces default mode network deactivation in response to numerical tasks. Frontiers in Human Neuroscience, 9: 202. |
| [66] | Parsons, S., & Bynner, J. (2005). Does numeracy matter more? London, NRDC Research Report. |
| [67] | Daker, R. J., Gattas, S. U., Sokolowski, H. M., Green, A. E., & Lyons, I. M. (2021). First-year students’ math anxiety predicts STEM avoidance and underperformance throughout university, independently of math ability. Science of Learning, 6: 17. |
| [68] | Holmes, K., Gore, J., Smith, M., & Lloyd, A. (2018). An integrated analysis of school students' aspirations for STEM careers: Which student and school factors are most predictive? International Journal of Science and Mathematics Education, 16: 655–675. |
| [69] | OECD (2024). An Evolution of Mathematics Curriculum: Where It Was, Where It Stands and Where It Is Going. OECD Publishing, Paris. |
| [70] | Foley, A. E., Herts, J. B., Borgonovi, F., Guerriero, S., Levine, S. C., & Beilock, S. L. (2017). The math anxiety-performance link: a global phenomenon. Current Direction in Psychological Science, 26: 52–58. |
| [71] | Lau, N. T. T., Hawes, Z., Tremblay, P., & Ansari D. Disentangling the individual and contextual effects of math anxiety: A global perspective. Proceedings of the National Academy of Sciences of the USA. 119: e2115855119, 2022. |
| [72] | Daker, R. J., Gattas, S. U., Necka, E. A, Green, A. E., & Lyons, I. M. (2023). Does anxiety explain why math-anxious people underperform in math? NPJ Science of Learning, 8: 6. |
| [73] | Saglam, M. H., & Goktenturk, T. (2024). Mathematically high and low performances tell us different stories: Uncovering motivation-related factors via the ecological model. Learning and Individual Differences 114: 102513. |
| [74] | Cao, Y., Lavicza, Z., An, S., & Dong, L. (2024). Psychological studies in the teaching, learning and assessment of mathematics. Lausanne: Frontiers Media SA. |
| [75] | Casad, B.J., Hale, P., & Wachs, F. L. (2015). Parent-child math anxiety and math-gender stereotypes predict adolescents’ math education outcomes. Frontiers in Psychology, 6: 1597. |
| [76] | Soni, A., & Kumari, S. (2017). The role of parental math anxiety and math attitude in their children’s math achievement. International Journal of Science and Mathematics Education, 15: 331–347. |
| [77] | Geist, E. (2010). The anti-anxiety curriculum: Combating math anxiety in the classroom. Journal of Instructional Psychology, 37: 24–31. |
| [78] | Jackson, C. D., & Leffingwell, R. J. (1999). The role of instructors in creating math anxiety in students from kindergarten through college. Mathematics Teacher, 92: 583–586. |
| [79] | Turner, J. C., Meyer, D. K., Anderman, E. M., Midgley, C., Gheen, M., Kang, Y., & Patrick, H. (2002). The classroom environment and students’ reports of avoidance strategies in mathematics: A multimethod study. Journal of Educational Psychology, 94: 88. |
| [80] | Luttenberger, S., Wimmer, S., & Paechter, M. (2018). Spotlight on math anxiety. Psychology Research and Behavior Management, 11: 311-322. |
| [81] | Rattan, A., Good, C., & Dweck, C. S. (2012). “It’s ok — Not everyone can be good at math”: Instructors with an entity theory comfort (and demotivate) students. Journal of Experimental Social Psychology, 48: 731–737. |
| [82] | Abín, A., Núñez, J. C., Rodríguez, C., Cueli, M., García, T., & Rosário, P. (2020). Predicting mathematics achievement in secondary education: The role of cognitive, motivational, and emotional variables. Frontiers in Psychology, 11: 876. |
| [83] | Passolunghi, M. C., De Vita, C. & Pellizzoni, S. (2020). Math anxiety and math achievement: the effects of emotional and math strategy training. Developmental Science, 23: e12964. |
| [84] | Park, D., Ramirez, G., & Beilock, S. L. (2014). The role of expressive writing in math anxiety. Journal of Experimental Psychology: Applied, 20: 103-111. |
| [85] | Samuel, T. S., & Warner, J. (2021) “I can math!”: reducing math anxiety and increasing math self-efficacy using a mindfulness and growth mindset-based intervention in first-year students. Community College Journal of Research and Practice. 5: 205-222. |
| [86] | Sokolowski, H. M., & Necka, E. A. (2016). Remediating math anxiety through cognitive training: potential roles for math ability and social context. Journal of Neuroscience, 36: 1439-1441. |
| [87] | Yeager, D. S., & Dweck, C. S. (2012). Mindsets that promote resilience: when students believe that personal characteristics can be developed. Educational Psychologist, 47: 302–314. |
| [88] | Furner, J. M., & Duffy, M. (2002). Equity for all students in the new millennium: Disabling math anxiety. Intervention in School and Clinic, 38: 67-74. |
APA Style
Piccirilli, M., Lanfaloni, G. A. (2025). Math Anxiety and Math Competence: The Different Components of Math Anxiety May Produce Different Effects on Math Performance. Psychology and Behavioral Sciences, 14(3), 86-97. https://doi.org/10.11648/j.pbs.20251403.15
ACS Style
Piccirilli, M.; Lanfaloni, G. A. Math Anxiety and Math Competence: The Different Components of Math Anxiety May Produce Different Effects on Math Performance. Psychol. Behav. Sci. 2025, 14(3), 86-97. doi: 10.11648/j.pbs.20251403.15
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Download@article{10.11648/j.pbs.20251403.15,
author = {Massimo Piccirilli and Gianni Alberto Lanfaloni},
title = {Math Anxiety and Math Competence: The Different Components of Math Anxiety May Produce Different Effects on Math Performance
},
journal = {Psychology and Behavioral Sciences},
volume = {14},
number = {3},
pages = {86-97},
doi = {10.11648/j.pbs.20251403.15},
url = {https://doi.org/10.11648/j.pbs.20251403.15},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.pbs.20251403.15},
abstract = {Introduction: Given the critical importance of math proficiency, considerable research has focused on identifying the factors that contribute to math achievement. Extensive research has demonstrated a negative correlation between math performance and mathematics anxiety, that is the anxiety that appears specifically when the subject has to deal with numbers. However, it is known that there are students who, despite having a high level of mathematics anxiety, manage to achieve adequate math performance. The present report focused specifically on the competence acquired by students characterized by a high level of mathematics anxiety. Materials and Method: The study involved students who were followed in their first year of secondary school. Students were assessed on two separate occasions: first at the end of the first term, and then again at the end of the second term. Based on the scores obtained in the anxiety questionnaire, students scoring above the mean by one standard deviation were categorized as having high levels of anxiety. Furthermore, based on the results obtained in the math test conducted at the end of the year, these high mathematics anxiety students were divided into two subgroups in relation to whether they had acquired the minimum levels of competence required by the school curriculum. Results: Pearson’s correlation coefficient shows an inverse relationship between the level of mathematics anxiety and the score obtained in the math test. However, the subgroup analysis shows that, compared to their peers who had not acquired the expected skills, students who are both highly math anxious and good math achievers present an equivalent high fear of judgement but a significantly higher interest in studying mathematics. Mathematics anxiety, even when high, does not necessarily prevent the acquisition of math skills. Discussion: The data are discussed in light of the different interpretations that students can provide of their state of anxiety when faced with the difficulty of the task to be solved: it is likely that interest in studying mathematics can counterbalance the fear of an unwanted judgment. Conclusions: Ultimately, results suggest taking proper account of individual heterogeneity of math anxious students and highlight the need to adopt a teaching approach that considers individual differences in the management of emotions.
},
year = {2025}
}
TY - JOUR T1 - Math Anxiety and Math Competence: The Different Components of Math Anxiety May Produce Different Effects on Math Performance AU - Massimo Piccirilli AU - Gianni Alberto Lanfaloni Y1 - 2025/05/24 PY - 2025 N1 - https://doi.org/10.11648/j.pbs.20251403.15 DO - 10.11648/j.pbs.20251403.15 T2 - Psychology and Behavioral Sciences JF - Psychology and Behavioral Sciences JO - Psychology and Behavioral Sciences SP - 86 EP - 97 PB - Science Publishing Group SN - 2328-7845 UR - https://doi.org/10.11648/j.pbs.20251403.15 AB - Introduction: Given the critical importance of math proficiency, considerable research has focused on identifying the factors that contribute to math achievement. Extensive research has demonstrated a negative correlation between math performance and mathematics anxiety, that is the anxiety that appears specifically when the subject has to deal with numbers. However, it is known that there are students who, despite having a high level of mathematics anxiety, manage to achieve adequate math performance. The present report focused specifically on the competence acquired by students characterized by a high level of mathematics anxiety. Materials and Method: The study involved students who were followed in their first year of secondary school. Students were assessed on two separate occasions: first at the end of the first term, and then again at the end of the second term. Based on the scores obtained in the anxiety questionnaire, students scoring above the mean by one standard deviation were categorized as having high levels of anxiety. Furthermore, based on the results obtained in the math test conducted at the end of the year, these high mathematics anxiety students were divided into two subgroups in relation to whether they had acquired the minimum levels of competence required by the school curriculum. Results: Pearson’s correlation coefficient shows an inverse relationship between the level of mathematics anxiety and the score obtained in the math test. However, the subgroup analysis shows that, compared to their peers who had not acquired the expected skills, students who are both highly math anxious and good math achievers present an equivalent high fear of judgement but a significantly higher interest in studying mathematics. Mathematics anxiety, even when high, does not necessarily prevent the acquisition of math skills. Discussion: The data are discussed in light of the different interpretations that students can provide of their state of anxiety when faced with the difficulty of the task to be solved: it is likely that interest in studying mathematics can counterbalance the fear of an unwanted judgment. Conclusions: Ultimately, results suggest taking proper account of individual heterogeneity of math anxious students and highlight the need to adopt a teaching approach that considers individual differences in the management of emotions. VL - 14 IS - 3 ER -
Department of Medicine, University of Perugia, Perugia, Italy
Serafico Institute, Assisi, Italy
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