소리의 강도 – 문제점과 해결책

소리의 강도 – 문제점과 해결책

1. Point A and B located at 4 meters and 9 meters from a source of the sound. If IAB are intensity at point A and point B, then IA : 나B =…

알려진 바에 따르면:

The 거리 of point A from a source of sound (rA) = 4미터

A distance of point B from the source of sound (rB) = 9미터

The intensity of sound at point A = IA

The intensity of sound at point B = IB

구함 : IA : 나B

솔루션 :

IA rA2 = IB rB2

IA 42 = IB 92

IA 16 = 나B 81

IA / 나B = 81 / 16

2. The intensity of a source of sound is 10- 9 Wm- 2. o = 10- 12 Wm- 2. What is the sound level of 10 sources of sounds?

솔루션 :

알려진 바에 따르면:

나는 = 10-9 W / M2

Io = 10-12 W / M2

X = 10

모두 다 아는: Sound level (β)

솔루션 :

Intensity of sound – problems and solutions 1

Intensity of sound – problems and solutions 2

3. The sound level of a source of sound is 10 dB. What is the intensity of 1000 sources of sound? The minimum intensity Io = 10- 12 Wm- 2.

알려진 바에 따르면:

β = 10 dB

Io = 10-12 W / M2

X = 1000

구함 : Intensity

솔루션 :

The intensity of a source of sound :

Intensity of sound – problems and solutions 3

Intensity of sound – problems and solutions 4

The intensity of 1000 sources of sound :

I = (1000)(10-11) = (103)(삼-11)

나는 = 10-8 W / M2

4. The sound level of A is 40 dB, and the sound level of B is 60 dB. Io = 10-12 W m-2. Determine 100βA : 10βB.

알려진 바에 따르면:

The sound level of A = 40 dB

The sound level of B = 60 dB

Io = 10-12 W m-2.

구함 : 100βA : 10βB

솔루션 :

The sound level of 100 A :

β = 40 + 10 log 100

β = 40 + 10 log 102

β = 40 + (2)(10)(log 10)

β = 40 + (2)(10)(1)

β = 40 + 20

β = 60 dB

The sound level of 10 B :

β = 60 + 10 log 10

β = 60 + 10 log 101

β = 60 + (1)(10)(log 10)

β = 60 + (1)(10)(1)

β = 60 + 10

β = 70 dB

βA : βB

60 : 70

6 : 7

5. If point P is the source of sound, then the ratio of sound intensity at points S, R, and Q is …

알려진 바에 따르면:

The distance of point Q from the sound source (rQ) = 3미터Intensity of sound – problems and solutions 10

The distance of point R from the sound source (rR) = 6미터

The distance of point S from the sound source (rS) = 5미터

Sound intensity at point Q = IQ

Sound intensity at point R = IR

Sound intensity at point S = IS

구함 : Comparison of sound intensity at points S, R, and Q (IS: 나R: 나Q)

참조  선 벡터의 합력을 구하십시오.

솔루션 :

Sound intensity at point S :

Intensity of sound – problems and solutions 11

Sound intensity at point R :

Intensity of sound – problems and solutions 12

Sound intensity at point Q :

Intensity of sound – problems and solutions 13

Comparison of sound intensity at points S, R, and Q :

Intensity of sound – problems and solutions 14

Intensity of sound – problems and solutions 15

6. Point A is P from the sound source, point B is 2P from source sound and point C is 4P from the sound source. Comparison of sound intensity at A, B, and C is …

알려진 바에 따르면:

Distance point A from the sound source (rA) = P

Distance point B from sound source (rB) = 2P

Distance point C from sound source (rC) = 4P

Sound intensity at point A = IA

Sound intensity at point B = IB

Sound intensity at point C = IC

구함 : Comparison of sound intensity at A, B, C (IA : 나B : 나C)

솔루션 :

Sound intensity at point A :

Intensity of sound – problems and solutions 16

Sound intensity at point 나 :

Intensity of sound – problems and solutions 17

Sound intensity at point C :

Intensity of sound – problems and solutions 18

Comparison of sound intensity at A, B, and C :

Intensity of sound – problems and solutions 19

7. A total of 100 people were singing. If the level of the sound intensity of one student when singing 40 dB (assuming for each child is the same), then the intensity of the resulting sound is … (Io = 10-12 Wm-2)

알려진 바에 따르면:

Level of the intensity of one student (TI) = 40 dB

Io = 10-12 W / M2

The number of students (x) = 100

구함 : The sound intensity of 100 students

솔루션 :

Sound intensity of a student :

Intensity of sound – problems and solutions 20

Intensity of sound – problems and solutions 21

Sound intensity of 100 students :

Ix = (x)(I)

Ix = (100)(10-8) = (102)(삼-8)

Ix = 10-6 W / M2

8. The sound intensity of 100 identical machines is 10-7 와트.m-2. 만약 내가o = 10-12 와트.m-2다음, the level of the sound intensity of a machine is…

알려진 바에 따르면:

Sound intensity of 100 machines (Ix) = 10-7 와트.m-2

Io = 10-12 W / M2

The number of machines (x) = 100 = 102

Wanted : The sound intensity level of a machine (TI)

솔루션 :

Sound intensity of a machine :

Ix = (x)(I)

10-7 = (102)(I)

나는 = 10-7 / 102 = (10-7)(삼-2) = 10-9

The level of sound intensity of a machine (TI) :

Intensity of sound – problems and solutions 22

9. Sound intensity of a source of sound is 6 x 10-6 W / cm2. If the sound 강렬 level increased by 10 db, determine the intensity of sound.

알려진 바에 따르면:

Intensity (I) = 6 x 10-6 W / cm2

Io = 10-12 W / M2 = 10-12 W/104 cm2 = 10-16 W / cm2

구함: The intensity of sound

참조  전기장 방정식

솔루션 :

추가 전에, sound intensity of 10 W/m2 = 10-3 W / cm2 is equivalent to the addition of 전에, sound intensity level of 10 dB. The addition of sound intensity of 102 W / M2 = 10-2 W / cm2 is equivalent to the addition of sound intensity level of 20 dB. And so on.

If the intensity level is increased by 10 dB, the intensity increases by 10-3 W / cm2. So the intensity becomes 6 x 10-6 W / cm2) + (10-4 W / cm2) = (6 x 10-6 W / cm2) + (100 x 10-6 W / cm2) = 106 x 10-6 W / cm2.

10. Observer A is 5 m away from a sound source. While observer B is 10 m from the same sound source. So the ratio of sound intensity heard by observer B and A is…

알려진 바에 따르면:

The distance of A from the source of sound (rA) = 5미터

The distance of B from the source of sound (rB) = 10미터

구함 : The ratio of sound intensity heard by observer B and A

솔루션 :

Intensity of sound – problems and solutions 11

IB : 나A = 1 : 4

정답은 B입니다.

  1. What is sound intensity and how is it different from loudness?
    • 대답: Sound intensity is a measure of the sound power per unit area, usually measured in watts per square meter (W/m2). Loudness, on the other hand, is a subjective perception of the strength of a sound, typically measured in decibels (dB). While intensity is an objective, physical measurement, loudness is a subjective experience that can vary between individuals.
  2. How does the inverse square law relate to sound intensity?
    • 대답: The inverse square law states that the intensity of sound decreases with the square of the distance from the source. This means that as you move farther from the source, the intensity drops off rapidly.
  3. Why do two sounds with the same intensity not necessarily have the same perceived loudness?
    • 대답: The human ear has different sensitivities to different frequencies. Therefore, even if two sounds have the same intensity but different frequencies, they might be perceived as having different loudness levels.
  4. How does sound intensity relate to the amplitude of a sound wave?
    • 대답: Sound intensity is directly proportional to the square of the amplitude of the sound wave. If the amplitude of a sound wave is doubled, the intensity will increase by a factor of four.
  5. Why might a whisper in a quiet room be clearly audible, but the same whisper next to a roaring waterfall be inaudible?
    • 대답: This is due to the difference in background noise levels. In a quiet room, the background noise level is low, allowing the whisper to stand out. Next to a waterfall, the intense noise masks the quiet whisper, making it inaudible.
  6. What is the threshold of hearing and the threshold of pain in terms of sound intensity?
    • 대답: The threshold of hearing is the quietest sound that the average human ear can hear, typically at an intensity of about . The threshold of pain, which represents sound levels that can cause pain and potential damage to the ear, is around .
  7. Why do sounds seem quieter when heard through a wall or other barrier?
    • 대답: When sound waves encounter a barrier, some of the energy is reflected, absorbed, and transmitted. The absorption and reflection reduce the intensity of the sound that is transmitted through the barrier, making it sound quieter.
  8. How does frequency affect the intensity of sound that is absorbed by materials?
    • 대답: Different materials have varying absorption coefficients for different frequencies. For instance, low frequencies (bass sounds) are harder to absorb and can penetrate through walls more easily than higher frequencies.
  9. Why do concert venues and theaters invest in soundproofing and acoustic treatments?
    • 대답: Soundproofing helps to keep unwanted external noise out and prevents sound from leaking outside, ensuring that only the desired sound is heard within the venue. Acoustic treatments help in controlling sound reflections within the venue to ensure clear and uniform sound distribution.
  10. How does the intensity of sound relate to potential hearing damage?
  • 대답: Prolonged exposure to high-intensity sound levels can lead to hearing damage or loss. The intensity and duration of exposure both play roles; even short exposures to extremely loud sounds can cause permanent damage, while long-term exposure to moderately loud sounds can also be harmful.