Calculates wave speed as v = frequency × wavelength. Frequency is in hertz, wavelength in metres, and speed in m/s.
The speed of a wave is its frequency times its wavelength. Each second the source sends out complete waves, each one long, so the wave advances metres in that second.
The calculator also gives the period, the time for a single oscillation, which is , in seconds.
The defaults are a frequency of 440 Hz and a wavelength of 0.78 m.
The speed is 343.2 m/s and the period is s. 440 Hz is concert A, the note an orchestra tunes to, and 343 m/s is close to the speed of sound in air at 20 °C.
The speed of a wave is set by the medium it travels through, not by the source. In air at a fixed temperature, sound travels at a fixed speed, so raising the frequency simply shortens the wavelength: and are inversely proportional.
The speed of sound in air depends on temperature, roughly 331.5 + 0.6 × the temperature in °C. That gives about 331.5 m/s at 0 °C and about 343.5 m/s at 20 °C.
The frequency must be greater than zero. Zero or a negative value gives an error.
Light and radio waves obey too, travelling at about m/s in a vacuum.