the tighter the wave (frequency of waves) the higher/sharper the sound, and the greater the degradation of quality (short distance). the longer the wave greater in length the lower the sound and has an ability to travel farther.
ILoveBrandonWithAllmyHeart
yes it does like if you viebrate 2 and 1/2 string and if you vibrate 5 and 1/2 string you will get a different sound :-)
The number of vibrations affects the property of sound called frequency (measured in Hz)
Frequency is a factor that affects the pitch, or highness or lowness of sound.
The longer the string - the slower the vibration (and lower the note produced). If you shorten the string - it vibrates faster, producing a higher-pitched note,
yes
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if they are in a void no matter how much the object vibrates it won't produce any sound waves
Human ears can only hear (i.e., detect vibrations) in a range of about 20-20,000 vibrations per second. A pendulum will usually vibrate at much less than 20 vibrations per second. But please note that a vibrating object (such as a plucked string) may also produce secondary vibrations, other than the main frequency.On the other hand, a vibration must also be strong enough, in order to be heard.
Yes lasers do produce heat. It depends on how strong the laser is though. The more powerful and the more heat that will be generated.
The Casio G Shock series of watches are supposed to be so tough because they can withstand hard knocks and strong vibrations and have light and water resistance.
In that case, in a process known as "resonance", the object will tend to vibrate pretty strongly - possibly strong enough to break the object.
if they are in a void no matter how much the object vibrates it won't produce any sound waves
When you do fast motions you push the air and it producers vibrations.
First of all, it needs a source. But mostly, it needs vibrations. Depending on how strong the vibrations are determine how long the sound wave will travel.
Bees seem to hate or are distracted by high pitched sounds. They do not like loud noises nor do they respond well to strong vibrations.
if very loud sounds enter the ears the vibrations set up in the ear fluid are so strong that they damage the fibers and stop the nerve endings being stimulated. this could produce premanent ear damage and deafness.
sound conducts best through solids. Water is also a good conducter of sound, as the vibrations pass through very easily. Sounds will sound much louder underwater and will travel farther than through air. Through solids, it is best if the material is strong and taut, because if it is loose it will absorb sounds. Some materials that conduct sound well are: Plain water Metals (Copper, Nickel, Steel, etc.) A string will also work if it is tied tightly from one end to another Most woods
Human ears can only hear (i.e., detect vibrations) in a range of about 20-20,000 vibrations per second. A pendulum will usually vibrate at much less than 20 vibrations per second. But please note that a vibrating object (such as a plucked string) may also produce secondary vibrations, other than the main frequency.On the other hand, a vibration must also be strong enough, in order to be heard.
First of all, it needs a source. But mostly, it needs vibrations. Depending on how strong the vibrations are determine how long the sound wave will travel.
passing strong sound vibrations through water.
A seismograph measures the vibrations given off by an earthquake. Even the smallest earthquakes give off these vibrations.
i think strong acids will produce the most
produce a strong yarn