Want this question answered?
Potential to sound energy
Yes, a drum set can radiate sound energy when the surface of the drum vibrates on striking it to set particle molecules in air to transfer energy in a wave form and radiate out.
Sound
sound and heat could be present.
Sound grows more faint as you move away from the source for two reasons: attenuation and diffusion. Sound energy attenuates as it passes through a medium, until eventually all the sound energy is lost to friction. So the further away you are from the source, the more the sound has attenuated before reaching you. . Diffusion occurs because the sound wave expands in all directions. Assuming no attenuation, the amount of acoustic energy striking any given surface area (your ear drum, for example) is inversely proportional to the square of the distance to the source, so as you move away from the sound, the amount of acoustic energy declines exponentially.
Potential to sound energy
Yes, a drum set can radiate sound energy when the surface of the drum vibrates on striking it to set particle molecules in air to transfer energy in a wave form and radiate out.
Sound
Potential energy->sound energy+kinetic energy
sound and heat could be present.
the energy that has transformed in a guitar when you strummed is sound energy,besides it makes a sound when you strummed a guitar ..
loud things
Sound waves are energy waves. All you need to do is pass them along or through something that can collect or resonate them. A microphone is a good example of a device that collects sound waves. Any drum will resonate sympathetically with one specific sound frequency passed along it's surface.
Sound grows more faint as you move away from the source for two reasons: attenuation and diffusion. Sound energy attenuates as it passes through a medium, until eventually all the sound energy is lost to friction. So the further away you are from the source, the more the sound has attenuated before reaching you. . Diffusion occurs because the sound wave expands in all directions. Assuming no attenuation, the amount of acoustic energy striking any given surface area (your ear drum, for example) is inversely proportional to the square of the distance to the source, so as you move away from the sound, the amount of acoustic energy declines exponentially.
The energy in a sound wave is related how the air pressure changes as the wave move through the air. A moving object such as a vibrating drum head causes pressure disturbances in the air, which travel away from the object. The higher the pressure difference (between maximum and the 'normal' air pressure) will mean more intense sound (and more energy).
Vibrations are carried through the atoms in a structure. When these vibrations travel through air, they are amplified by the ear drum and sensed by nerves as sound.
I think it sounds like a bird but it is a DRUM SOUND