Every material transmits sound. Some better than others.
The vacuum does not produce sound waves nor, can sound waves travel through them. A sound wave needs something to travel on/through, such as air. A vacuum doesn't contain any particles required for sound waves.
Ears to receive the sound waves, a functioning auditory system to interpret those waves as sound, and a sound source to produce the waves.
Sound does not spread out in particles but in waves. Imagine dropping a pebble in a still lake...and that is how sound waves spread out. Sound waves can also reverberate through harder materials; however, soft materials absorb the vibrations.
It is likely true that absolutely everything is capable of absorbing sound waves; if there are materials that cannot, they would be special indeed. Some materials are much better than others, but even the materials that are most resistant would be absorbing small amounts of energy from sound waves, assuming that the material is in a medium (like air) capable of transporting sound.
If you mean sound waves, the only type of sound waves that can travel through air (or any gas, for that matter) is longitudinal waves.
sound waves dont produce vibrations, vibrations are sound waves.
Yes sound does produce waves. These special waves are called sound waves.
sound waves
All sound waves can do that.
Sound can be converted into electricity through a process called piezoelectricity. This involves using materials that generate an electric charge when they are subjected to mechanical stress, such as vibrations from sound waves. When sound waves cause these materials to vibrate, they produce an electric current that can be harnessed as electricity.
The vacuum does not produce sound waves nor, can sound waves travel through them. A sound wave needs something to travel on/through, such as air. A vacuum doesn't contain any particles required for sound waves.
Bats produce ultrasonic sound waves to sense obstacles in their environment. These waves bounce back, allowing bats to navigate and locate objects in the dark.
The amplitude of a sound wave is related to its intensity, which determines the loudness of the sound. Sound waves with greater amplitude produce louder sounds, while sound waves with smaller amplitude produce softer sounds.
Sound energy can be converted into electrical energy through a process called piezoelectricity. This involves using materials that generate an electric charge when they are subjected to mechanical stress, such as vibrations from sound waves. When sound waves cause these materials to vibrate, they produce an electric current that can be harnessed as electrical energy.
Sound waves produce sound. These are longitudinal waves that travel through a medium, like air, and are produced by vibrations of a source, like a speaker or vocal cords. Sound waves have frequency and amplitude properties that determine the pitch and volume of the sound.
Pitch
well the sound goes into the soundhole and then the sound waves form in the air lol thanksx