Certainly. To test this claim wind two balls of crocheting yarn, press them against your ears and turn the volume up on a radio really loud. I'm sure you will still hear it.
Yes, sound can pass through a string. When a string is plucked or strummed, it creates vibrations that travel through the string and create sound waves in the surrounding air. The sound waves produced by the vibrating string can then be heard by our ears.
Sound travels better through a string because the particles in a solid are more closely packed and can transmit vibrations more efficiently than in air. In air, the particles are more spread out, leading to greater energy loss and lower transmission of sound.
Yes, sound can travel through metal strings. When a string is plucked, it creates vibrations that travel through the metal material and produce sound waves. The density and tension of the metal strings affect the speed and quality of the sound produced.
The hypothesis of a string phone experiment is that sound can travel through a taut string between two cups. This suggests that the vibrations produced when speaking into one cup can be transmitted through the string and heard on the other cup, demonstrating the concept of sound transmission through a medium.
TRUE
Yes, sound can pass through a string. When a string is plucked or strummed, it creates vibrations that travel through the string and create sound waves in the surrounding air. The sound waves produced by the vibrating string can then be heard by our ears.
check my answer
it is produced by the string vibrating on the instrument when you strum it.
It is to thin
Sound travels better through a string because the particles in a solid are more closely packed and can transmit vibrations more efficiently than in air. In air, the particles are more spread out, leading to greater energy loss and lower transmission of sound.
The vibrations from your voice hitting the can travels through the string to the other can.
Yes, sound can travel through metal strings. When a string is plucked, it creates vibrations that travel through the metal material and produce sound waves. The density and tension of the metal strings affect the speed and quality of the sound produced.
The hypothesis of a string phone experiment is that sound can travel through a taut string between two cups. This suggests that the vibrations produced when speaking into one cup can be transmitted through the string and heard on the other cup, demonstrating the concept of sound transmission through a medium.
TRUE
Plucking a guitar string is a physical change because the string's shape and composition remain the same. The sound is produced due to the vibrations created when the string is plucked, which travel through the air as sound waves.
This is a complex question - or rather the answer could be.In a violin for example, the strings rotate as well as vibrate.In a simple 'string and tin can phone" the waves are transverse waves carried by the taut string.Basically, your string can vibrate back and forth, normal to the string;or it may rotate round the axis along the string;or a mass may swing suspended by the string as in a pendulum.
String telephones work by transmitting sound waves through a taut string or wire. When one person speaks into the cup at one end, the sound waves travel along the string and vibrate the cup at the other end, allowing the other person to hear the sound. This simple method of sound transmission is based on the principle of mechanical vibrations traveling through a medium, in this case, the string.