The quality of the acoustic environment is crucial for facilitating learning, as students primarily learn through listening to teachers and peers. Environmental noise, especially in educational settings like schools, poses a significant concern. Prolonged exposure to noise during critical learning periods can hinder development and have lasting effects on educational achievement. Poor acoustic quality leads to greater cognitive effort, making it harder to process and retain information, thus impacting perception negatively. However, the precise impact of noise on skills beyond listening requires further investigation. This study aims to deepen understanding of how noise exposure affects students’ cognitive processes across different educational stages. Primary school children and university students underwent neuropsychological exercises testing working memory, attention, inhibition, and problem-solving skills. They were tested in both quiet and noisy conditions. Quiet conditions simulated typical background noise during individual tasks, while noise conditions included babble noise with additional transient events. Physical and noise parameters were measured during the tests, and a questionnaire on perceived cognitive effort was administered. Results indicate that noise has a positive impact on attention and inhibition in children while it has no clear effect on the cognitive functions of the young adults.

Students’ Cognitive Performance in Different Acoustic Conditions at Different Educational Stages

Battagliarin, Lisa
;
Cappelletti, Francesca;Pittana, Ilaria;Romagnoni, Piercarlo
2025-01-01

Abstract

The quality of the acoustic environment is crucial for facilitating learning, as students primarily learn through listening to teachers and peers. Environmental noise, especially in educational settings like schools, poses a significant concern. Prolonged exposure to noise during critical learning periods can hinder development and have lasting effects on educational achievement. Poor acoustic quality leads to greater cognitive effort, making it harder to process and retain information, thus impacting perception negatively. However, the precise impact of noise on skills beyond listening requires further investigation. This study aims to deepen understanding of how noise exposure affects students’ cognitive processes across different educational stages. Primary school children and university students underwent neuropsychological exercises testing working memory, attention, inhibition, and problem-solving skills. They were tested in both quiet and noisy conditions. Quiet conditions simulated typical background noise during individual tasks, while noise conditions included babble noise with additional transient events. Physical and noise parameters were measured during the tests, and a questionnaire on perceived cognitive effort was administered. Results indicate that noise has a positive impact on attention and inhibition in children while it has no clear effect on the cognitive functions of the young adults.
2025
Multiphysics and Multiscale Building Physics : Proceedings of the 9th International Building Physics Conference
Inglese
4
392
398
7
9789819783168
9789819783175
Springer Nature Singapore Pte Ltd. 2025
Singapore
SINGAPORE
9th International Building Physics Conference
25-27 July 2024
Toronto
Internazionale
contributo
Comitato scientifico
cognitive performance · classroom noise · students
reserved
info:eu-repo/semantics/conferenceObject
9
3. Contributo in atti di convegno (Proceedings)::3.1 Contributo in atti di convegno
Battagliarin, Lisa; Spicciarelli, Gaia; Gheller, Flavia; Di Bella, Antonino; Cappelletti, Francesca; Pittana, Ilaria; Arfè, Barbara; Molinari, Marco; ...espandi
273
   Indoor Environmental QUALITY in classrooms: children’s listening comfort for inclusive learning
   EQUALITY
   Ministero dell'Istruzione, dell'Università e della Ricerca
   2022PEL99F
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11578/356589
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