The speed of sound is not greatly affected by pressure in an ideal gas. Air is not an ideal gas, so there may be some small effect, but temperature and humidity will be much more influential.
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Answer #1:
The frequency of sound is completely determined by the source of the sound. Once the sound leaves the source, the frequency doesn't change.
Yes, the frequency of a wave remains constant as long as the medium temperature and pressure do not change. Temperature and pressure affect the speed of sound in a medium, not the frequency of the wave.
Pressure has a direct relationship with the speed of sound, which in turn affects the frequency of a wave. As pressure increases, the speed of sound increases. This causes the wavelength to decrease, resulting in an increase in frequency. Conversely, a decrease in pressure would lead to a decrease in frequency.
The relationship between vibration and the frequency of a sound wave is that the frequency of a sound wave is directly related to the rate of vibration of the sound source. In other words, the higher the frequency of a sound wave, the faster the source of the sound is vibrating.
The size of a sound wave is typically measured in terms of its wavelength, which is the distance between two consecutive peaks or troughs of the wave. The wavelength of a sound wave is inversely proportional to its frequency, meaning that higher frequency sounds have shorter wavelengths and lower frequency sounds have longer wavelengths. Sound waves can vary in size depending on factors such as the frequency and amplitude of the sound.
The pitch of a sound means the frequency. That stays constant with distance. You mean the sound pressure level that decreases with distance.
The frequency of the wave.f.
Timbre of the sound. It is related to the frequency of the fundamental frequency and a combination of overtones.
No. A sound's pitch depends on the frequency of the wave.
Pitch depends on the frequency of a sound wave. Higher frequency sound waves result in higher pitch, while lower frequency sound waves result in lower pitch. The pitch of a sound is perceived by the human ear based on the frequency of the sound wave.
An ultrasonic wave is a sound pressure wave that has a very high frequency. The frequency is higher that what humans can hear.
Yes, the frequency of a wave remains constant as long as the medium temperature and pressure do not change. Temperature and pressure affect the speed of sound in a medium, not the frequency of the wave.
The three things that affect the frequency of a sound wave are the source of the sound (vibration frequency), the medium through which the sound wave is traveling (speed of sound in the medium), and the relative motion between the source of the sound and the observer (Doppler effect).
The speed of sound does not depend on the amplitude of the sound wave or the frequency of the wave. It is primarily determined by the medium through which it travels, such as air, water, or solids. Additionally, the speed of sound is not influenced by the direction in which the sound is traveling.
The speed of sound does not depend on the wavelength or frequency of the sound wave. It is mainly determined by the properties of the medium it travels through, such as temperature and density.
Well, I take it you mean a wave in the air, like a sound wave (alternating compressions of air). Volume of a sound wave ( a type of compressional wave) is our perception of its amplitude, the amplitude is a measure in the intensity of the waves, or the amount of variation in air pressure. Our perception of pitch varies with the frequency, or how frequently the alternations in air pressure persist.
Pressure has a direct relationship with the speed of sound, which in turn affects the frequency of a wave. As pressure increases, the speed of sound increases. This causes the wavelength to decrease, resulting in an increase in frequency. Conversely, a decrease in pressure would lead to a decrease in frequency.
The pitch of sound depends on the frequency of the sound wave. Higher frequency waves result in higher pitch sounds, while lower frequency waves result in lower pitch sounds.