they have different wavelengths the higher the frequency the shorter the wavelength. the speed is the same
Assuming velocity is a constant and v=f x wavelength. They would have different wavelengths.
Traveling in the same medium, they have the same speed - just different frequencies (and wavelengths).
That all depends on the frequency of the sound and its speed in whatever substance it happens to be traveling through. In air, the wavelength of audible frequencies ranges from about 17.1 millimeters to about 17.1 meters. (20-20K Hz, 343 m/s)
using it to create a different form of energy through resonance. or system's resonance frequencies, through amplitude oscillation. The system stores vibrational energy.
Sound quality is the term for the bending of overlapping sound wave frequencies through interference.
Assuming velocity is a constant and v=f x wavelength. They would have different wavelengths.
Traveling in the same medium, they have the same speed - just different frequencies (and wavelengths).
No. The frequencies determine the sound.
Sound quality is the term for the bending of overlapping sound wave frequencies through interference.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
no
That all depends on the frequency of the sound and its speed in whatever substance it happens to be traveling through. In air, the wavelength of audible frequencies ranges from about 17.1 millimeters to about 17.1 meters. (20-20K Hz, 343 m/s)
using it to create a different form of energy through resonance. or system's resonance frequencies, through amplitude oscillation. The system stores vibrational energy.
Sound quality is the term for the bending of overlapping sound wave frequencies through interference.
It depends on the substance the sound is traveling through. If the sound is traveling through air, it is usually about 800km/h. If it is traveling through water, the speed is about 4000km/h. If it is traveling through cosmos, its speed is 0km/h.
Sound is the compression of molecules and atoms in waves which can have different frequencies amplitudes and wavelengths that determine how we interpret the sound.