Sound itself is a wave. Your brain is able to process this wave as sound as it vibrates across your eardrum. The frequency and amplitude of this wave determines how you hear it (what it sounds like), or whether or not you even hear it at all.
I don't know i came here for an answer to this dumb question but all i see is a stupid "Answer It" button >:(
An explosion of TNT.
we can convert sound waves to electric waves and by giving supply we can generate sounds to Piezo electric crystals or ceramics. The process of converting sound waves to electric waves with the help of peizo electric crystals is called peizo electric effect
Microphones will convert sound waves into electrical signals. An ear (i..e human ear) will also convert sound waves into electrical signals.
Sound waves are what make up sound (sound waves=sound) so I would suppose so.
fluorescent
Sound waves are longitudinal waves; they travel from side to side, not up and down like transverse waves.
vibrations
your vocal cord
They both convert between electrical impulses and sound waves. The microphone converts sound waves into electrical impulses and the loudspeaker converts electrical impulses into sound waves.
Microphone can do this job.
a speaker's 'coil' (and magnet) converts electrical signals to sound
through mediums ANSWER: A speaker will covert sound waves into mechanical movement. To prove see sound feedback.
The diaphragm
we can convert sound waves to electric waves and by giving supply we can generate sounds to Piezo electric crystals or ceramics. The process of converting sound waves to electric waves with the help of peizo electric crystals is called peizo electric effect
For radio broadcasting, sound waves are converted to electrical waves that are further transmitted. This transformation is done by a device called a transducer, which converts physical parameters into an electrical form (signals).
A microphone is a device that picks up sound waves, converts the waves in to electrical pulses to be sent down cables or by wifi. A speaker receives the electrical pulses and converts the pulses back in to sound waves that a person can hear and understand.
In general, the cochlea. More specifically, an impulse is carried into the brain along the auditory nerve when the tectorial membrane and the basilar membrane inside the cochlea are pressed together by the force of sound waves.
Microphones will convert sound waves into electrical signals. An ear (i..e human ear) will also convert sound waves into electrical signals.