answersLogoWhite

0


Best Answer

An example of transmission of sound would be a person talking through a phone, where the sound waves travel through the phone's material. An example of absorption would be sound being absorbed by a carpeted room, reducing echoes. An example of reflection would be sound bouncing off a hard wall, creating reverberation.

User Avatar

AnswerBot

βˆ™ 6mo ago
This answer is:
User Avatar

Add your answer:

Earn +20 pts
Q: What is an example of a transmission absorption and reflection of sound?
Write your answer...
Submit
Still have questions?
magnify glass
imp
Continue Learning about Physics

How can you describe a time you observed the transmission reflection or absorption of a sound?

I once observed the transmission of sound waves through a wall in a quiet room. The sound became muffled and quieter as it passed through, indicating some absorption and reflection. The wall seemed to block some of the sound, but not all of it, demonstrating the complex interactions sound waves can have with different materials.


What is the difference of absorption and reflection of sound?

Absorption of sound refers to when sound waves are absorbed by a material and converted to heat energy, reducing sound intensity. Reflection of sound occurs when sound waves hit a surface and bounce back, maintaining the sound intensity in the environment.


Is megaphone an example of reflection of sound?

No, a megaphone is not an example of the reflection of sound. Reflection of sound refers to the phenomenon where sound waves bounce off a surface. A megaphone amplifies sound by directing and focusing the sound waves in a desired direction.


Which interacts more with a medium?

Light interacts more with a medium through processes like absorption and scattering, which can affect its propagation and behavior. Sound also interacts with a medium through transmission, reflection, and absorption, but light interactions are more complex due to its dual wave-particle nature.


Does brick absorb sound?

Yes, brick has the ability to absorb sound due to its porous nature. The rough surface and density of brick help to reduce sound transmission through absorption and reflection. However, it is not as effective at absorbing sound as softer, fibrous materials like acoustic panels.

Related questions

How can you describe a time you observed the transmission reflection or absorption of a sound?

I once observed the transmission of sound waves through a wall in a quiet room. The sound became muffled and quieter as it passed through, indicating some absorption and reflection. The wall seemed to block some of the sound, but not all of it, demonstrating the complex interactions sound waves can have with different materials.


What is the difference of absorption and reflection of sound?

Absorption of sound refers to when sound waves are absorbed by a material and converted to heat energy, reducing sound intensity. Reflection of sound occurs when sound waves hit a surface and bounce back, maintaining the sound intensity in the environment.


Is megaphone an example of reflection of sound?

No, a megaphone is not an example of the reflection of sound. Reflection of sound refers to the phenomenon where sound waves bounce off a surface. A megaphone amplifies sound by directing and focusing the sound waves in a desired direction.


Which interacts more with a medium?

Light interacts more with a medium through processes like absorption and scattering, which can affect its propagation and behavior. Sound also interacts with a medium through transmission, reflection, and absorption, but light interactions are more complex due to its dual wave-particle nature.


Does brick absorb sound?

Yes, brick has the ability to absorb sound due to its porous nature. The rough surface and density of brick help to reduce sound transmission through absorption and reflection. However, it is not as effective at absorbing sound as softer, fibrous materials like acoustic panels.


What Sound energy is absorbed reflected or transmitted?

Sound energy can be absorbed, reflected, or transmitted when it encounters different surfaces. Absorption occurs when the sound energy is taken in by a material, reflection happens when sound bounces off a surface, and transmission occurs when sound passes through a material. The amount of each process depends on the properties of the surface the sound hits.


What are different types of sound wave interaction?

Some types of sound wave interactions include reflection (when a sound wave strikes a surface and bounces back), absorption (when a material absorbs sound waves and reduces their intensity), diffraction (bending of sound waves around obstacles), and refraction (change in direction of sound waves as they pass through different mediums).


Is an echo an example of reflection refraction or diffraction?

An echo is an example of reflection, which occurs when a wave bounces off a boundary. In the case of sound waves, an echo is produced when sound waves reflect off a surface and return to the listener.


What is an abat-voix?

An abat-voix is a device used for reflection of sound, used as a sounding board, for example over a pulpit.


What is a Non-Example for the word Reflection?

A non-example of the word "reflection" would be an activity or concept that doesn't involve pondering, thinking deeply, or the physical process of light or sound waves bouncing off a surface. For example, playing soccer or painting a picture is not related to reflection. A non-example for the word "reflection" would be something that does not involve the act of reflecting or the phenomenon of light or sound waves bouncing back from a surface. For instance, running a marathon or baking a cake is a non-example of reflection.


How can we say that sound also follows the laws of reflection?

Sounds can be reflected, for example, from walls.


What category of effect is related to sound propagation?

The category related to sound propagation is called "acoustic effects." This includes phenomena like reflection, absorption, diffraction, and refraction that affect how sound waves move through different mediums.