If you excluded two tin cans with a string, alltelephones change sound vibrations into electrical vibrations.
An auditory vibration (aka acoustic wave or sound vibration) is when the tympanic membrane (eardrum) is hit by sound waves and vibrates. This vibration is picked up, amplified and transmitted through the middle ear by the ossicles. This vibration ends at the oval window since it changes to fluid vibration and ultiimately electrical energy in the inner ear.
The speed of the vibration changes the pitch of a sound. A higher speed of vibration creates a higher pitch, while a lower speed of vibration creates a lower pitch. The size of the vibration does not directly affect the pitch, but it can influence the volume or intensity of the sound.
Alexander Graham Bell's telephone worked by converting sound waves into electrical signals, which were then sent through wires to a receiver that converted them back into sound. The telephone relied on the principles of electromagnetism to transmit and receive these electrical signals, specifically by using a metal diaphragm and an electromagnet to convert sound waves into electrical signals and vice versa.
The diaphragm in a telephone is most like a speaker cone. It vibrates to convert electrical signals into sound waves, similar to how a speaker diaphragm moves to produce sound. This movement allows the telephone to transmit voice audio clearly to the listener on the other end.
A telephone converts sound waves to electric waves through a microphone, which captures the vibrations of sound waves produced by a speaker's voice. These vibrations cause a diaphragm in the microphone to move, creating variations in electrical current that correspond to the sound wave's amplitude and frequency. The resulting electric signals are then transmitted over telephone lines, allowing the sound to be reproduced on the other end through a speaker.
sound is made from vibration
In a loudspeaker, electrical energy is converted into mechanical energy to produce sound waves. In a microphone, sound waves cause a diaphragm to vibrate, converting the mechanical energy into electrical signals.
An auditory vibration (aka acoustic wave or sound vibration) is when the tympanic membrane (eardrum) is hit by sound waves and vibrates. This vibration is picked up, amplified and transmitted through the middle ear by the ossicles. This vibration ends at the oval window since it changes to fluid vibration and ultiimately electrical energy in the inner ear.
The speed of the vibration changes the pitch of a sound. A higher speed of vibration creates a higher pitch, while a lower speed of vibration creates a lower pitch. The size of the vibration does not directly affect the pitch, but it can influence the volume or intensity of the sound.
A telephone converts electrical energy into sound energy. When you speak into the telephone, your voice is converted into an electrical signal that travels through the phone lines. At the recipient's end, the electrical signal is converted back into sound waves, allowing the listener to hear your voice.
Once sound energy enters the mouthpiece of a telephone, it is converted into electrical signals by a microphone. These electrical signals are then transmitted through the telephone wire to the earpiece at the other end, where they are converted back into sound waves that can be heard by the listener.
The telephone does that!
Sound is produced through the vibration of an object. This vibration creates sound waves that travel through a medium, such as air, and reach our ears. When these sound waves reach our ears, they are translated into electrical signals that the brain perceives as sound.
sound is simply the vibration of air molecules. so, sound occurs whenever air molecules are vibrated. but in order for us as humans to hear that sound, the air molecules have to vibrate within a certain frequency range
Sound energy is transferred when speaking into a telephone. The vibrations caused by the sound of our voice are converted into electrical signals that are then transmitted through the telephone line to the receiving end.
how is data retrieved from the telephone? the transmitter converts the sound waves to electrical signals which are sent through the telephone network to the receiving phone. the receiving telephone converts the signals into audible sound in the receiver.
Vibration sound.It makes somewhat of a twang sound. The tightness of the string changes the pitch of the twang.