Destructive interference.
As you know, sound travels in the form of waves with crests and troughs (high and low points). When two waves meet, constructive or deconstructive interference can occur. Loudness increases when waves interfere constructively, in other words when crests combine with crests or when trough combine with troughs to produce an even larger wave amplitude (the height of the resulting wave). Loudness decreases when waves interfere deconstructively, in other words when crests cancel out troughs to produce a smaller wave amplitude.
oscillations in which the amplitude gets smaller over time.
That means that part of the wave is absorbed by the material.
Loudness of a sound depends on its amplitude. Greater the amplitude of sound wave, more louder the sound is. Smaller the amplitude of wave, more fainter it is. For more details, contact saqibahmad81@yahoo.com
It's called Constructive. (:Just found the answer.
Constructive interference occurs when amplitudes of two waves combine to produce a wave with a larger amplitude.If a wave with a smaller amplitude is produced, destructive interference has occurred.
Destructive interference occurs when the amplitudes of two waves combine to produce a wave with a smaller amplitude.
It depends on the frequency of the waves. Are we assuming here that one wave is acting as destructive interference to another wave?. If they have the same frequency, then the amplitudes should combine to produce a wave with a smaller amplitude than the original (two?) waves. Otherwise your results will vary.
It depends on the frequency of the waves. Are we assuming here that one wave is acting as destructive interference to another wave?. If they have the same frequency, then the amplitudes should combine to produce a wave with a smaller amplitude than the original (two?) waves. Otherwise your results will vary.
Addition and polymerization will combine smaller molecules together to create a larger one.
No. If a vibration is smaller, the sound is higher pitched. To get a quieter sound the amplitude of the sound-wave needs to be smaller. +++ It depends whether you mean amplitude or wavelength being "smaller", and they are two different things. If the vibration's amplitude is smaller the sound is quieter irrespective of frequency. If the vibration is more rapid, the frequency is higher but the wavelength correspondingly smaller irrespective of amplitude.
It depends on the frequency of the waves. Are we assuming here that one wave is acting as destructive interference to another wave?. If they have the same frequency, then the amplitudes should combine to produce a wave with a smaller amplitude than the original (two?) waves. Otherwise your results will vary.
As you know, sound travels in the form of waves with crests and troughs (high and low points). When two waves meet, constructive or deconstructive interference can occur. Loudness increases when waves interfere constructively, in other words when crests combine with crests or when trough combine with troughs to produce an even larger wave amplitude (the height of the resulting wave). Loudness decreases when waves interfere deconstructively, in other words when crests cancel out troughs to produce a smaller wave amplitude.
it s a nuclear process in which smaller nuclei combine to form huge nucleus. in this process some amount of mass convert into energy in the form of light and light
amplitude The amplitude of a sound wave determines its loudness or volume. A larger amplitude means a louder sound, and a smaller amplitude means a softer sound.
oscillations in which the amplitude gets smaller over time.
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