What is the wave length of 100 Hz? Answer You mean a sound wave in air. At a temperature of 20 degrees Celsius or 68 degrees Fahrenheit there is the speed of sound c = 343 meters per second. For a tone of f = 100 Hz the wavelength is lambda = c / f = 343 / 100 = 3.43 meters.
The equation for the relationship between wavelength and frequency is X = frequency * wavelength, where X = the speed of the particle. For light, the wavelength of 100 Hz is 2.99 E8 cm, and for sound, the wavelength is 60 m.
-- The speed of sound in steel ranges generally between 3,000 - 6,000 meters per second,
depending on the composition of the steel.
A 75-Hz sound in steel would have a wavelength of 40 to 80 meters.
-- The speed of electromagnetic radiation in vacuum is roughly 300,000,000 meters per second ...
nominally 50,000 to 100,000 times the speed of sound in steel.
A 75-Hz radio wave in vacuum has a wavelength of 4,000 kilometers.
15 ft
The wavelength is (the speed of the wave) / (350) .
Wavelength = speed/frequency = 2/15 Hz = roughly 0.133... Hz.
That depends on its speed, and therefore on the medium it happens to be in. -- In normal air at sea level, 30 Hz corresponds to a wavelength of about 37.5 feet. -- In copper, 30 Hz corresponds to a wavelength of about 506 feet. -- In diamond, 30 Hz corresponds to a wavelength of about 1,315 feet. -- In water, 30 Hz corresponds to a wavelength of about 160 feet.
Wave speed = wavelength x frequency 4.0 m/s = wavelength x 2.50 Hz 1.6 m = wavelength
3000000m
The wavelength is (the speed of the wave) / (350) .
Wavelength = speed/frequency = 2/15 Hz = roughly 0.133... Hz.
That depends on its speed, and therefore on the medium it happens to be in. -- In normal air at sea level, 30 Hz corresponds to a wavelength of about 37.5 feet. -- In copper, 30 Hz corresponds to a wavelength of about 506 feet. -- In diamond, 30 Hz corresponds to a wavelength of about 1,315 feet. -- In water, 30 Hz corresponds to a wavelength of about 160 feet.
Wave speed = wavelength x frequency 4.0 m/s = wavelength x 2.50 Hz 1.6 m = wavelength
3000000m
For 440 Hz: λ = about 423.37 miles.
Frequency= 0.5 Hz.
If you divide the speed of light (in meters/second) by the frequency (in Hz), you get the wavelength (in meters).
Lower frequency equates to a longer wavelength, so the 340 Hz tuning fork would emit a longer wavelength sound.
The wavelength is 671 nm.
The wavelength is 671 nm.
Freq = Speed/Wavelength = 37.5/25 Hz = 1.5 Hz