The membrane (such as you eardrum) vibrates.
When sound hits a thin membrane, the membrane vibrates, causing it to produce sound waves in the air. The frequency of the sound produced will depend on the vibrational frequency of the membrane. This phenomenon is commonly observed in musical instruments like drums or cymbals.
When a sound wave hits a wall, the amplitude of the wave decreases due to reflection. Some of the sound energy is absorbed by the wall, some is transmitted through it, and some is reflected back into the original space. This results in a decrease in the overall energy and amplitude of the sound wave.
When a cat hits a small bell with its paw, the initial energy input comes from the kinetic energy of the cat's paw moving. This kinetic energy is then transferred to the bell, causing it to vibrate and produce sound energy. The sound energy is a result of the mechanical energy of the bell vibrating back and forth, creating sound waves in the air.
When sound hits a surface, it can be reflected, absorbed, or transmitted. The type of interaction depends on the material and texture of the surface. Sound waves can bounce off smooth surfaces like mirrors, be absorbed by soft materials like curtains, or pass through thin surfaces like paper.
One thing we need to know is sound can get transferred only when it hits a medium(like air). The way it travels is by transfering the energy from one particle to the next and so on The sound wave has energy which it would transfer to the object. some part of this energy is tranferred through the object. Some is scattered in all directions
When sound hits a thin membrane, the membrane vibrates, causing it to produce sound waves in the air. The frequency of the sound produced will depend on the vibrational frequency of the membrane. This phenomenon is commonly observed in musical instruments like drums or cymbals.
What is a tightly stretched membrane that vibrates when sound hits it
generally speaking, the sound is absorbed.
Generally it falls into the atmosphere and burns up.
When a sound wave hits a wall, the amplitude of the wave decreases due to reflection. Some of the sound energy is absorbed by the wall, some is transmitted through it, and some is reflected back into the original space. This results in a decrease in the overall energy and amplitude of the sound wave.
They are either absorbed [softsurface, e.g. wool] or refected [hard surface, e.g. metal]
When a cat hits a small bell with its paw, the initial energy input comes from the kinetic energy of the cat's paw moving. This kinetic energy is then transferred to the bell, causing it to vibrate and produce sound energy. The sound energy is a result of the mechanical energy of the bell vibrating back and forth, creating sound waves in the air.
When sound hits a surface, it can be reflected, absorbed, or transmitted. The type of interaction depends on the material and texture of the surface. Sound waves can bounce off smooth surfaces like mirrors, be absorbed by soft materials like curtains, or pass through thin surfaces like paper.
When a cat hits a small bell with its paw, the kinetic energy from the cat's paw is transferred to the bell, causing it to ring. The kinetic energy is then converted into sound energy as the bell produces sound waves. Overall, the energy conversion involves kinetic energy being transferred and transformed into sound energy.
when a sound wave hits a wall it refracts and loses velocity but carrys on. if there is another wall within its distace then it will refract gain. this can cause an echo
it loses heat and sound
A piano works by when the person presses a key, a small hammer inside the piano hits a string. This creates the sound. You can also dampen the sound using the pedals or play the note louder or quieter.