The results of the study: Using a questionnaire consisting of 11 questions, 41
people were interviewed. According to the results of the survey, it was found that 80% of
respondents use headphones to listen to music; 44% of respondents listen to audio material
at full volume, moderately
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47%, quietly
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9%; a smaller part (20%) devotes more than
three hours to listening to audio material, 44%
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about an hour, 27%
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about 2 hours and
15%
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about 3 hours;
17% of respondents fall asleep with headphones and wake up with them, while as
15% fall asleep with them, but due to parents control,
wake up without them, 68% do not
fall asleep with device; under the given conditions, the majority (54%) of the respondents
will not wear headphones on the go. 41% of respondents
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under the influence of
headphones, they may not notice others (friends, relatives). 5%
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talk with others with their
headphones on;
22% of the students surveyed in the absence of headphones (in your pocket,
backpack) have a feeling of anxiety; 10% of participants use headphones when doing
routine work,
22%
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for privacy in their personal space, 41%
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regardless of the situation, 27%
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for the convenience of others; about half of the participants (49%) use both earphones,
27% alternately, 24% use one earphone; in 22% of respondents, parents use headphones, in
78%
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do not use; about half of the respondents (46%) use headphones without restrictions,
while as 37% are under the control of their parents, the rest are prohibited from using
headphones.
Findings. A significant part of students who perceive audio material through
headphones uses them: at full volume (44%), without restrictions from their parents (46%),
under their influence they may not notice others (41%), use regardless of the
situation (41%); preventive and educational
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informative conversations were conducted
among the interrogated high school students in order to avoid hearing impairment;
listening to music at high volume entails unfavorable consequences.
This is due to the pressure created by sound waves, which can lead to damage to the
hair cells of the auditory analyzer and the development of sensor neural hearing loss.