No, the pitch of sound is determined by the frequency of the vibration, not the amplitude. Amplitude affects the loudness or intensity of sound, while frequency affects the pitch.
Sound is produced when an object vibrates, creating mechanical waves in the air. These waves travel to our ears, where they are detected and processed by our auditory system as sound. The pitch and volume of the sound depend on the frequency and amplitude of the vibrations.
A sound of uniform vibration is called a tone. It is characterized by having a consistent frequency and amplitude, resulting in a steady pitch and volume.
Each signal vibration of an object produces a specific sound frequency. The frequency of the vibration determines the pitch or note of the sound. The intensity of the vibration affects the volume or amplitude of the sound produced.
The intensity of sound vibration amplitude is primarily influenced by the strength of the sound source and the distance from the source. As sound travels further from the source, the amplitude decreases due to spreading out of the energy. Additionally, the medium through which the sound is traveling can affect its intensity.
No, the amplitude of a sound wave does not change as the pitch gets higher. The amplitude of a sound wave determines the loudness of the sound, while the pitch is determined by the frequency of the wave.
By vibration of vocal chords.. High frequency of vibration/low pitch = sweet sound Low frequency of vibration/high pitch = harsh sound High amplitude = loud sound
Sound is produced when an object vibrates, creating mechanical waves in the air. These waves travel to our ears, where they are detected and processed by our auditory system as sound. The pitch and volume of the sound depend on the frequency and amplitude of the vibrations.
A sound of uniform vibration is called a tone. It is characterized by having a consistent frequency and amplitude, resulting in a steady pitch and volume.
Each signal vibration of an object produces a specific sound frequency. The frequency of the vibration determines the pitch or note of the sound. The intensity of the vibration affects the volume or amplitude of the sound produced.
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.
Amplitude decides the intensity (loudness) of the sound. Intensity is directly proportional to the square of the amplitude of vibration.
as the amplitude increases the waves get closer together like an accordion being squeezed...so the vibrations become faster (or higher pitched if we're talking about sound) if the amplitude is decreased the waves spread out and the vibration is slower and lower in pitch
The intensity of sound vibration amplitude is primarily influenced by the strength of the sound source and the distance from the source. As sound travels further from the source, the amplitude decreases due to spreading out of the energy. Additionally, the medium through which the sound is traveling can affect its intensity.
No, the amplitude of a sound wave does not change as the pitch gets higher. The amplitude of a sound wave determines the loudness of the sound, while the pitch is determined by the frequency of the wave.
No, the amplitude of a sound wave is determined by the energy or intensity of the sound wave, not its pitch. Pitch is determined by the frequency of the sound wave, which is how fast the wave is vibrating.
Amplitude is the maximum extent of vibration of a body from its mean position. The amplitude of a sound wave indicates the loudness of the sound.
if high amplitude was found in reservoir after injected water what that mean?