The distance light takes to travel in a second (just less than 30000000metres).
Wavelength = speed/frequency = 300 million meters
425,000 Hz: λ = about 0.438 miles.
Wavelength is calculated in MHz not Hz, and the formula is Wavelength = 300 / MHz
The speed of a wave = (frequency) x (wavelength) = 2.5 meters per second.
With the digits written in the question, the unit should be "meters per second", not miles.A radio wave with a wavelength of 10 meters has a frequency of (300,000,000 / 10) = 30 MHz.300,000,000 meters = 186,282 milesA radio wave with a wavelength of 10 miles has a frequency of (186,282 / 10) = 18,628 Hz.
Wavelength equals the velocity of the wave divided by the frequency; for an EM wave, the velocity is the speed of light. So the wavelength of this wave is 299792458/1.9 x 106 = 157.78550421... ~ 158 metres or 173 yards.
425,000 Hz: λ = about 0.438 miles.
That would be a 'radio' wave with a wavelength about 71/2 times the Earth's circumference.
Frequency = velocity of the wave / wavelength Frequency = 3 x 108 / 1.28 x 107 So v = 23.4375 Hz
Wavelength is calculated in MHz not Hz, and the formula is Wavelength = 300 / MHz
The speed of any wave =Frequency *Wavelength here, frequency =1.49*1017 Hz & wavelength=6.39 nm =6.39* 10-9 m So speed=9.52*108 m/s
The frequency 55 Hz has a wavelength of about 6.23meters.
The speed of a wave is the product of its wavelength and its frequency.
340 m/s
Frequency = 6.00 x 10-14 Hz Wavelength = (speed) /(frequency) -- If this wave is sound in air, then the speed is 343 m/s and the wavelength is 5.72 x 1012 kilometers. -- If this is an electromagnetic wave in vacuum, then the speed is 299,792,458 m/s and the wavelength is 5 x 1018 kilometers.
You need to divide the speed of light (in m/s) by the frequency (in Hz, which is equal to 1/s) to get the wavelength (in meters).
Wave speed = wavelength x frequency 4.0 m/s = wavelength x 2.50 Hz 1.6 m = wavelength
The speed of propagation of an electromagnetic wave (like light, which is an electromagnetic wave) is nearly the speed of light. It will actually be the speed of light in a vacuum. But it does travel a little more slowly depending on the medium through which it is traveling. (Like air.) The frequency of the electromagnetic wave is not a determining factor in finding its speed, but will certainly be a factor in determining its absorption by the medium. A radio wave of 9.5109 Hz is a really low frequency wave, and generating and transmitting it would be a pretty piece of engineering.