Strings are made by metals. It is the best carrier.
I give the answer yes. Strings are made by metals. speed is high in metals.
Yes, solids transmit sound better than gases because their molecules are closer together.
it is travels better outside because of air space
Sound can travel better through denser objects, so since stone is denser than water and air, sound can travel faster through it.
Well, water is a better conductor than air because the particles inwater have greater influence on each other than the particles in air, making the transmission of energy easier. Water is better conductor than air because the molecules in water are closer together than the molecules in air.
I give the answer yes. Strings are made by metals. speed is high in metals.
Yes, solids transmit sound better than gases because their molecules are closer together.
sound is produced in veena by vibrating the strings of it
That depends, a top of the line Goodman may be a better investment than a builders grade Carrier.
The player makes the strings vibrate, which makes the body of the guitar vibrate, which makes the air vibrate. And vibrations in the air, at a certain set of frequencies, is what sound is.
The player makes the strings vibrate, which makes the body of the guitar vibrate, which makes the air vibrate. And vibrations in the air, at a certain set of frequencies, is what sound is.
Air
Sound will travel better in string because speed of sound on solids is greater than that in air. As string is a solid so sound will travel faster (or better) in string than in air
Attached to the keys are hammers that strike strings that are inside the piano. They work kind of like a guitar. The hammer hitting the strings creates air waves and that's what makes the sound. The strings have different thicknesses and they make different sounds when the hammer hits them.
The sound is produced by the strings vibrating. You can play a cello by plucking the strings (like a guitar) or by playing with a bow (like a violin).
When the bow is pulled across the strings, it causes them to vibrate. This in turn causes the air around the strings to vibrate, creating sound. This sound is amplified by resonating inside the violin body, it then travells out of the body loud enough for people to hear.
What vibrates in a harpsichord are the strings when plucked by their corresponding metal pin, and the air inside the air chamber, which is there to amplify the volume of the sound.