In a sound wave, "B" typically refers to the frequency of the wave, which determines its pitch. Sound waves are longitudinal waves consisting of compressions and rarefactions, and they travel through various media like air, water, or solids. The frequency of a sound wave is measured in hertz (Hz) and relates to how many cycles occur in one second. Higher frequencies produce higher pitches, while lower frequencies result in lower pitches.
b
The frequency of this sound wave is very near constant.
The result of a reflected sound wave is obviously an echo.
The amplitude (The height of the wave) of the wave increases as the sound gets louder.
the strength or volume of the sound wave :)
a) Loudness is determined by the amplitude of a wave, which corresponds to the intensity or volume of sound. b) Pitch is determined by the frequency of a wave, which corresponds to how high or low a sound is perceived.
Longitudinal (also called compression) wave
b
No, a sound wave is a compressional wave.
No. A sound wave is a pressure wave.
yes a sound wave is a Compressional wave
Yes, a sound wave is a longitudinal wave.
Yes, a sound wave is a longitudinal wave, not a transverse wave.
No, sound is a longitudinal wave, not a transverse wave.
Mechanical WaveLongitudinal WavePressure Wavesound wave is a longitudinal mechanical wave.answer: B. compression C. longitudinal D. mechanical
The wavelength of a sound wave in water with the same frequency as the electromagnetic wave would be different since sound waves and electromagnetic waves propagate differently. In general, sound waves in water have shorter wavelengths compared to electromagnetic waves. The specific calculation would depend on the frequency provided in "part B."
A is wrong. B is right C is right D is wrong A: Sound travels as a wave, therefore it does not travel in a straight line. B: Sound travels in a wave. C: The sound wave is a form of energy; all waves are. D: Sound cannot travel in a vaccuum. A is not entirely wrong.