Yes - the amount of absorption can depend on the frequency.
Frequency and distance are directly proportional the higher the frequency the more distance for the sound to dissipate th lower the frequency th shorter the distance for the sound to dissipate
Because it is lighting between clouds. Most of the sound originates at the same distance from you. So the frequency of the sound is nearly the same. Therefor you can hear the harmonics created by the small difference in frequency.
The definition of sound is : "Vibrations that travel through the air or another medium and can be heard when they reach a person's or animal's ear." Sound can be measured by amplitude (loudness) and pitch (The frequency of the vibrations). Therefore sound does not affect frequency but frequency affects the pitch of the sound.
It is independent of frequency.
Frequency= 226.67 Yes, we can hear this sound.
It's a direct relationship; higher frequency gives you a higher pitch.
There is a direct relationship. The higher the frequency, the higher the perceived pitch.
For any wave phenomenon, the product of (wavelength) x (frequency) is always the wave speed.
Easy: direct relationship, higher ptich, higher frequency (and vice-versa) lower pitch lower frequency Hard to explain more... Both are of sound waves, plus they effect how sound will travel in that higher frequencies are attenuated more rapidly than low frequency for the same distance and medium..
the number of waves that passes a given point in one second is called frequency pitch is related to loudness or amplitude of sound
The relationship is direct and linear, The higher the frequency the higher the pitch.
Higher the frequency, higher the pitch. Doubling a frequency raises pitch by one (musical) octave. Many people can hear sounds at frequencies between 20 Hz and 16kHz.
The frequency of a sound wave affects the pitch of a sound. A higher frequency sound wave produces a higher pitch sound. On a piano, the pitch A4 (A above "middle C") will produce a soundwave with a frequency of 440 Hz. The pitch A3 (A an octave below A4) will have a frequency of 220 Hz. The frequency of A5 (A an octave above A4) is 880Hz. "Midde C," or C4, has a frequency of approximately 262 Hz.
If the frequency of a sound wave lies between 20Hz and 20KiloHertz then it is audible by most people.
The relationship between frequency and wavelength is shown by the equation: v= f (lambda) where v is velocity, f is frequency, and lambda is wavelength. The wavelenth is the distance between two analogous points in the wave (ie. two peaks, or two troughs), and the frequency is the number of wavelenths per second.
Frequency is the number of cycles per second. Sound has frequency. The speed of sound is the distance traveled during a unit of time. 768 mph.
its the characteristic of sound by which we differentiate between a shrill and a grave sound .higher the frequency greater will be the pitch!