⭐⭐⭐ Единый реферат-центр

Главная » Рефераты » Текст работы «How does listening to music affect students while studying?»

How does listening to music affect students while studying?

Listening to music for relaxation is common among students to counter the effects of stress or anxiety while completing difficult academic tasks. Some studies supporting this technique have shown that background music promotes cognitive performance while other studies have shown that listening to music while engaged in complex cognitive tasks can impair performance. This study focuses on the impact different genres of music, played at different volume levels, have on the cognitive abilities of college students completing academic tasks.
Cognitive Performance. Music. Cognition. Test-taking. Study Habits. Music Therapy.

Дисциплина: Иностранные языки и языкознание
Вид работы: топик
Язык: английский
ВУЗ: ----
Дата добавления: 9.08.2017
Размер файла: 38 Kb
Просмотров: 136
Загрузок: 0

Все приложения, графические материалы, формулы, таблицы и рисунки работы на тему: How does listening to music affect students while studying? (предмет: Иностранные языки и языкознание) находятся в архиве, который можно скачать с нашего сайта.
Приступая к прочтению данного произведения (перемещая полосу прокрутки браузера вниз), Вы соглашаетесь с условиями открытой лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная (CC BY 4.0)

Текст работыСкачать файл

Хочу скачать данную работу! Нажмите на слово скачать
Чтобы скачать работу бесплатно нужно вступить в нашу группу ВКонтакте. Просто кликните по кнопке ниже. Кстати, в нашей группе мы бесплатно помогаем с написанием учебных работ.

Через несколько секунд после проверки подписки появится ссылка на продолжение загрузки работы.
Сколько стоит заказать работу? Бесплатная оценка
Повысить оригинальность данной работы. Обход Антиплагиата.
Сделать работу самостоятельно с помощью "РЕФ-Мастера" ©
Узнать подробней о Реф-Мастере
РЕФ-Мастер - уникальная программа для самостоятельного написания рефератов, курсовых, контрольных и дипломных работ. При помощи РЕФ-Мастера можно легко и быстро сделать оригинальный реферат, контрольную или курсовую на базе готовой работы - How does listening to music affect students while studying?.
Основные инструменты, используемые профессиональными рефератными агентствами, теперь в распоряжении пользователей реф.рф абсолютно бесплатно!
Как правильно написать введение?
Подробней о нашей инструкции по введению
Секреты идеального введения курсовой работы (а также реферата и диплома) от профессиональных авторов крупнейших рефератных агентств России. Узнайте, как правильно сформулировать актуальность темы работы, определить цели и задачи, указать предмет, объект и методы исследования, а также теоретическую, нормативно-правовую и практическую базу Вашей работы.
Как правильно написать заключение?
Подробней о нашей инструкции по заключению
Секреты идеального заключения дипломной и курсовой работы от профессиональных авторов крупнейших рефератных агентств России. Узнайте, как правильно сформулировать выводы о проделанной работы и составить рекомендации по совершенствованию изучаемого вопроса.
Всё об оформлении списка литературы по ГОСТу Как оформить список литературы по ГОСТу?
Учебники по дисциплине: Иностранные языки и языкознание

Краткое описание документа: How does listening to music affect students while studying? топик по дисциплине Иностранные языки и языкознание. Понятие, сущность и виды, 2017.

Как скачать? | + Увеличить шрифт | - Уменьшить шрифт

топик по дисциплине Иностранные языки и языкознание на тему: How does listening to music affect students while studying?; понятие и виды, классификация и структура, 2015-2016, 2017 год.

Nowadays music has become part of many our activities. Therefore it is not surprising that music has always been attracting scientists’ interest and is still being studied. It surrounds us almost everywhere: when we go to shopping centers and malls there surely music is being played; music is also often played in public transports; while spending time with friends or all alone we listen to music. I also often listen to music and I do it while studying too. So while choosing research question I have searched for many issues and when I saw researches on different impacts of music on people and their behavior it came to in a flash that providing a research on impact of music on students like me could be of much worth.
Many students listen to music to alleviate the emotional effects of stress and anxiety when engaged in complex cognitive processing, such as studying for a test, completing homework assignments, or while reading and writing. This practice is so common that it would be beneficial for college students to understand the role that music plays on cognitive performance. Research demonstrating the effects of music on performance is well documented, but has shown ambiguous evidence on this matter. In studies conducted to learn about the effects of musical distraction on cognitive task performance, the findings have demonstrated the idea of music improving cognitive performance (Cockerton, Moore, & Norman, 1997), but there has also been research contradicting those results, where music was found distracting for participants performing cognitive tasks (Furnham & Bradley, 1997). However, with the plethora of music genres available to music listeners, it is important to understand how different types of music impact performance. Additionally, very few studies address the interaction between the intensity or volume of the music played and its effect on cognitive processing. The present study aims to understand the effect of listening to different genres of music played at different volume levels on cognitive task performance.
This research paper reports two different types of sources: a multiple-choice questionnaire and simple arithmetic tests. Multiple-choice questionnaire or social survey was conducted among random students and they were not only school students but also university students. With the help of sample size calculator exact number of responses needed for the survey was found out. In accordance with sample size calculator, 81 students out of 3000 with the margin of error 9% had to be asked. Students of Nazarbayev Intellectual School in Almaty and of Nazarbayev University were chosen. Social survey was conducted via SurveyMonkey.com. Students were asked 10 various questions such as “Do you listen to music while studying?”, “What genre do you prefer?”, “Have you ever noticed impacts of music on you?” etc. Questions were carefully constructed, concise and understandable. This method’s advantage is that it can collect responses in a fast way so that much time was saved.
Second method included simple arithmetic test-taking while music was playing at different volumes. This method was used by students of Maryland, Baltimore county, US. I decided to try this test-taking method on our students and find out impacts of listening to music on their cognitive abilities. The tests consisted of 20 different operations: 5 multiplication, 5 division, 5 addition, and 5 subtraction problems. The order of operations was randomized throughout the tests. No question involved operations with more than a three-digit number. The five tests were similar in difficulty. Loud music was defined as heavy-rock metal music, and the song used in that condition was “Not Ready to Die” (Demon Hunters, 2004). Soft music was defined as classical acoustic guitar-only music, and the piece that was used in that condition was “To good friend” (Isato Nakagawa). 32 students were chosen as participants. The participants were asked to solve five arithmetic tests with twenty different questions on each test. The first test was conducted in the soft music condition at low intensity (Test 1- SM-LO), and the second test, in the loud music condition at low intensity (Test 2-LM-LO). The third test was performed in complete silence (Test 3- SIL). The fourth and fifth tests were conducted in soft music and loud music conditions, respectively, both at high volume intensity (Test 4-SM-HI and Test 5 LM-HI). The participants were allowed sixty seconds to complete each test. There was a twenty second waiting period between each test. The participants were not allowed to use a calculator or any other electronic device to complete the questions on the tests.
Many students choose to listen to a preferred genre of music when they study or do their homework without understanding the potential harmful effects of such practice. A study conducted by Smith and Morris (1977) addressed this question by studying the effects of sedative and stimulative music. The study focused on the influence these two distinct genres of music have on performance, anxiety, and concentration. Participants had to indicate their preferred genre and were requested to repeat a set of numbers backwards while listening to either the stimulative, sedative, or no music. The results indicated that participants performed worse while listening to their preferred type of music. Additionally, in the no music condition, participants performed best. These results indicate that a preferred type of music can serve as a distracting factor when one is engaged in a cognitively demanding task perhaps due to the fact that less cognitive resources are available when the attention is drawn to the lyrics, emotions, and memories that such music can evoke. Participants who listened to sedative music performed better than participants who listened to simulative music and worse than those who listened to no music at all. These results indicated that stimulative music is a stronger distractor and obstructs cognitive processing more than sedative music does.
The influence of music on cognitive performance has also been linked to personality types. A study conducted by Furnham and Bradley (1997) illustrated pop music as a distracter on the cognitive performance of introverts and extraverts. They predicted that extraverts would outperform introverts in the presence of music. The participants were required to perform two cognitive tasks: a memory test with both an immediate and a delayed recall and a reading comprehension test. The two tasks would be completed in the pop music condition as well as in silence. The results determined that immediate recall on the memory test was severely impaired for both introverts and extraverts when the pop music was played. In the delayed recall component of the memory test, introverts showed significantly poorer recall than did extraverts in the pop music condition as well as introverts in the silent condition. Also the introverts’ performance on the reading comprehension task in the pop music condition was impaired when compared to extraverts in the same condition and to introverts who performed the task in silence. Overall, the researchers determined that pop music served as a distractor for the cognitive performance of both extraverts and introverts; however, introverts seemed to be most affected. Interestingly, this study revealed some evidence that overall background noise, such as television, music, and chatter could improve performance in complex cognitive tasks for extraverts, although it will significantly impair introverts’ performance (Furnham & Bradley, 1997).
Studies involving noise as a distraction have demonstrated the same ambiguous results regarding their effect on cognitive processing as studies involving background music. Dobbs, Furnham, and McClelland (2011) conducted a study that tested the effect of distracters, specifically background noise and music, on cognitive tasks for introverts and extraverts. The researchers hypothesized that performance, for both introverts and extraverts, would be worse in the presence of music and noise than it would be in silence; specifically, for all the cognitive tasks, performance would diminish in the presence of background noise, improve with only background music, and be optimal in silence. The findings supported their predictions and showed that cognitive performance in silence was better than performance with background music, which in turn was better than performance with background noise. The results also demonstrated that, overall, performance in silence was best when compared to performance in background noise and music (Dobbs, Furnham, & McClelland, 2011). In contrast, a study conducted by Pool (2002), monitored the distracting effects of background television on homework performance and did not find any significant impairment on homework assignments when students were distracted by television while working on those assignments. These findings indicate that background noise, just like background music impacts cognitive performance in ways that have not been fully understood by researchers.
Although previous research has established that music can either distract or facilitate cognitive task performance, improved performance in the presence of music might be directly related to the type of music listened to (Cockerton, Moore, & Norman, 1997). A study conducted by Hallman, Price, and Katsarou, (2002) supported this argument. In fact, they tested the effect of calming and relaxing music on arithmetic and memory performance tests in children ranging from ages ten to twelve. They found better performance on both tasks in the calming and relaxing music condition when compared with a no-music condition. They also tested these children in an arousing, aggressive, and unpleasant music condition, and the results showed that their performance on both tasks was heavily disrupted and led to a lower level of reported altruistic behavior by the children (Hallman, Price, & Katsarou, 2002). Although these data did not find that calming music enhanced performance, one might imply that this type of music can provide a soothing environment that puts students at ease, facilitating cognitive processing.
The present study considers the effects of two different types of music at varying intensities on cognitive task performance and compared them to tasks performed in silence. It was predicted that tasks performed in silence would yield better results than tasks performed both in the soft music and the loud music conditions, demonstrating that music is a distracter to cognitive performance. Additionally, performance scores were expected to be significantly lower in the presence of loud music at a high intensity, suggesting that both the type of music and the volume at which the music is played are contributors to the distracting effect of music. Finally, performance was predicted to be significantly higher in the presence of soft music compared to loud music.
One of the sources of data is survey, which was conducted among students of Nazarbayev Intellectual School in Almaty and of Nazarbayev University. The sample size is 81 people. According to the survey results, there is no significant difference in responses between that of NIS students’ and NU students’; therefore they were gathered into one group. Slightly more than 80 percent of respondents listen to music while academic performances. Almost 90 percent of respondents who claim to listen to music while studying say that the main reason is to fight stress and boredom; they raise their motivation to study. Other 20 percent report that music distracts them while studying. 70 percent of students answered that they listen to preferred genre of music and only 10 percent listens to classical or soft music.
This study was conducted in a repeated-measured design; therefore, a paired sample t-test was used for the analysis as the second method. An alpha level of .05 was used for the analysis. The independent variable was the type of music played at two different levels of intensity: high intensity and low intensity. The dependent variable was the performance score, which was measured in terms of accurate answers obtained in each of the tests. The tests were not graded for completion but for accuracy only.
In agreement with the first hypothesis, performance scores were significantly higher in silence (M= 12.94) than in all four music conditions, intensity levels, and types of music combined (M= 11.99), t(31)= 2.21, p <.05. The second hypothesis was also supported in the study; participants obtained significantly higher test scores at low intensity (M= 25.63) than at high intensity of both types of music (M= 22.34), t(31)= 4.75, p <.001. Performance scores were also significantly higher in silence (M= 12.94) than in loud music at high intensity (M= 10.78), t(31) = -2.90, p< .05.
However, there was also no significant difference in test scores between participants in the soft music conditions (M= 23.75) and performance in the loud music conditions (M= 24.22), t(31)= -0.56, p= 0.582.
The present study sought to demonstrate the impact of different genres of music played at different volume levels on cognitive performance. In accordance with the first hypothesis, participants performed better in silence than they did in any music conditions. The findings were also in agreement with the second hypothesis. They demonstrated that the performance was significantly worse in the presence of loud music at high intensity. Contrary to the third hypothesis, however, there was no significant difference between the type of music that was played and performance scores. The scores were not significantly higher in the soft music versus the loud music condition. Interestingly, there was no difference when the scores from the soft music at high intensity were compared to scores from the loud music at high intensity.
These results seem to parallel those of students of Maryland University (2013). In their study, they also found that participants performed better on a cognitive processing test while listening to no music than they did while listening to either stimulating or sedative music. They determined that performance is impaired with music and optimized with no music. However, their study revealed that participants performed significantly better while listening to sedative music than they did while listening to stimulating music, whereas the current experiment found no significant difference in test scores between the loud music and soft music conditions.
The third hypothesis suggested that performance would be better in the soft music condition when compared to the loud music condition because it was believed that classical music would provide a positive, soothing, and comfortable environment for the participants due to its relaxing tone that will facilitate information processing. However, that hypothesis was not supported by the results; it is important to note that the overall performance was significantly lower in the loud music at high intensity. Based on these results, the presence of lyrics and the consistent use of louder instruments, such as drums, bass and, electric guitar to the heavy metal rock music can be seen as reasons for its distracting effects.
Interestingly, while the findings of this study revealed that it is the intensity of the music rather than the type of music that matters the most when it comes to cognitive performance, it is still noteworthy to point out that scores were significantly higher when participants completed the tests in the silence condition. Through this process, it can be implied that it is easier to process information in the presence of a minimal level of distraction. It can be implied that students should not listen to any music or allow any auditory disturbance while studying to obtain maximum performance level. Students should strive to study and learn in an environment such as the library or a private study room that is as quiet as possible, especially when the material requires higher cognitive processing.
To conclude, this research paper analyzed all the information and data gathered from two different sources. The research tried to investigate the reasons of listening to music while studying and impacts of it on their cognitive performances. Analyzing the given study it is seen that mostly students listen to music to alleviate emotional effects of stress, fight the boredom. They mostly listen to their preferred artists and songs. Genres vary, for instance, there are those who listen to hip-hop music and rap. Also rock music listeners were found. Only a small number of students listen to classical or at least soft music.
From the second source t-test we could not only see students’ attitude towards listening to music while academic performances but also see them in practice. The research resulted that music more distracts than helps to raise cognitive performances. It matches the opinion that the music agitates rather than focuses the studier, and researcher Glenn Schellenberg likened it to trying to learn while riding a roller coaster. A University College London study found that both introverted and extroverted undergraduate students performed worse on a reading comprehension test when pop music was played. From the t-test results we could see that this statement is the nearest to truth.
However, this research needs to be carried on to get more knowledge on this subject. Methods used to get information and data must create situations similar to real.
 Obviously, music affects our brains functioning and our aim is to find the ways of listening to music to get the most of it. When should we listen to music? Before or after? To what kind of music should we listen to? How long should we listen to it? These questions still need to be answered.
Future research should strive to change the sequence in which the tests are administered to guarantee that the results obtained are those of the treatment effects and to eliminate or reduce possible learning effects.
It should also plan to design more complex cognitive processing tests, such as memory tests or reading comprehension questions from standardized tests like the National Testing or the SAT. This could provide a more accurate depiction of the participants’ cognitive processing abilities.
Results from the current study demonstrated how important it is to consider the effects of distracting music on cognitive performance. It was shown that the volume plays a crucial role and could be more important than the type of music played. However, data from this study has demonstrated that silence seems to be the best environment to maximize performance when engaging in cognitive activity. Classical music was not shown to enhance performance contrary to the study’s expectations. Hence, the direct benefits of listening to music on cognitive processing could be more of a fantasy than a reality.
When the research study was carried out there were some strong and some weak sides of the research paper found.
Weak side of the research paper is that the sample size was the major limitation of this study. Although two of the predictions were supported with this sample, large samples could have provided more reliable significances that could be generalized to the college student population. Due to the limited availability of participants, this study was conducted in a repeated-measured design, which could also be a limiting factor. The sequence in which the tests were given was not randomized throughout the experiment; as such, learning effects could account for the improvement in later tests as the study progressed.
The design of the room could also be another limitation to this experiment. Where participants were seated in the room could have had an effect on how the music was heard. Hence, for participants sitting closer to the speakers, the music was louder than those who were sitting on the other side of the room. This variance in volume level may have either positively or negatively affected the results. Although, some of the results from this study showed that the arithmetic problems were a sufficient tool to assess cognitive performance; however, they may have been too simple for students on the collegiate level to perform. Besides, there were no mathematical base level assessments conducted prior to the study. Participants with stronger skills could have had a biased advantage, whereas those with lower mathematical skills would have had a biased disadvantage.
The strong side of this research paper is that test-taking here in Almaty was very similar to those of American students’ and thus it was easier to carry out. Test-taking allowed to witness students’ cognitive abilities in real-time performance being influenced by various volumes and types of music. This means that I could not only gather data and information but also see the process which gives much visual understanding.
Beeson, Sean. (2004). Morning Light. On Ivory Dreams [CD]. United States: Serenity Studio LLC.
Cockerton, T., Moore, S., & Norman, D. (1997). Cognitive test performance and background music. Perceptual and Motor Skills, 85(3, Pt 2), 1435-1438.
Demon Hunter. (2004). Not ready to die. On Summer of Darkness [CD]. Nashville, United States: Solid State.
Dobbs, S., Furnham, A., & McClelland, A. (2011).The effect of background music and noise on the cognitive test performance of introverts and extraverts. Applied Cognitive Psychology, 25(2), 307–313.
Furnham, A., & Bradley, A. (1997). Music while you work: The differential distraction of background music on the cognitive test performance of introverts and extraverts. Applied Cognitive Psychology, 11(5), 445-455.
Hallman, S., Price, J., & Katsarou, G. (2002). The effects of background music on primary school's pupils' task performance. Educational Studies, 28(2), 111-122.
Pool, M. M. (2002). Distraction effects of background television on homework performance. Noise and Vibration Worldwide, 33(1), 24-28.
Smith, C.A., & Morris, L. W. (1977). Differential effects of stimulative and sedative music anxiety, concentration, and performance. Psychological Reports, 41, 1047-1053.
1. 9+9 =
2. 11-8 =
3. 21÷7 =
4. 12 x 3 =
5. 8+13 =
6. 81÷9 =
7. 35-7 =
8. 4 x 7=
9. 64÷8 =
10. 27+9 =
11. 10-2 =
12. 9 x 6 =
13. 18 ÷6 =
14. 6+9 =
15. 7 x 8 =
16. 32-6 =
17. 48 ÷8 =
18. 5 x 7 =
19. 8 + 6 =
20. 22-8 =
1. 8+9 =
2. 13-8 =
3. 21÷3 =
4. 12 x 3 =
5. 8+14 =
6. 35÷5 =
7. 25-7 =
8. 4 x 6=
9. 24÷8 =
10. 17+7 =
11. 13-5 =
12. 9 x 4 =
13. 18 ÷3 =
14. 16+7 =
15. 31-6 =
16. 7 x 7 =
17. 36 ÷6 =
18. 8 x 7 =
19. 9 + 8 =
20. 21-6 =
1. 6+7 =
2. 12-7 =
3. 24÷4 =
4. 11 x 5 =
5. 7+15 =
6. 35÷5 =
7. 26-9 =
8. 8x7 =
9. 34÷2 =
10. 18+7 =
11. 14-5 =
12. 7 x6 =
13. 18 ÷3 =
14. 26+9 =
15. 21-6 =
16. 4 x 9 =
17. 49 ÷7 =
18. 7 x 3 =
19. 6 + 9 =
20. 19-8 =
1. 5+6=
2. 11-7 =
3. 26÷2 =
4. 9 x 5 =
5. 6+17 =
6. 40÷5 =
7. 27-9 =
8. 6 x 9 =
9. 54÷2 =
10. 19+9 =
11. 16 -9 =
12. 8x6 =
13. 32 ÷4 =
14. 25+9 =
15. 31-6 =
16. 7 x 9 =
17. 49 ÷7 =
18. 8 x 9 =
19. 19 + 7 =
20. 38-9 =
1. 7+9 =
2. 41-7 =
3. 36÷2 =
4. 9 x 3 =
5. 5+19 =
6. 20÷5 =
7. 28-9 =
8. 9 x 9 =
9. 48÷4 =
10. 18+8=
11. 17 -9 =
12. 8x7 =
13. 32 ÷8 =
14. 15+9 =
15. 31-4 =
16. 7 x 5 =
17. 28÷7 =
18. 9 x 4 =
19. 29 + 8 =
20. 36-9 =



Похожие работы:
Воспользоваться поиском

Похожие учебники и литература:    Готовые списки литературы по ГОСТ

Неправильные глаголы в английском языке. Irregular verbs. Таблица.
Словарь литературоведческих терминов
Башҡорт теленең практик курсы. Күнегеүҙəр йыйынтығы
Теория перевода
Русский язык - основы правописания в кратком изложении
Теория перевода лекции
Теория языка
Топики на английском языке
Основы редактирования лексики
English for management
Правописание гласных в корне слова

Скачать работу: How does listening to music affect students while studying?, 2017 г.

Перейти в список рефератов, курсовых, контрольных и дипломов по
         дисциплине Иностранные языки и языкознание