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You need to have a good understanding that if the signal is wiggling slower,

then it can travel farther during each wiggle.

Now we can proceed to calculate the wavelengths. If the answer is truly unknown

to you, then we won't even bother trying to drag you through the proportions.

We'll just calculate each wavelength, and then compare them:

Wavelength = (speed of light) divided by (frequency.

We'll assume that we're talking about radio waves, just so we have a speed

to work with. The result will be similar for any kind of wave.

At 56 Hz, wavelength = (3 x 108) / (56) = 5,357,000 meters (about 3,329 miles)

(rounded)

At 2 MHz, wavelength = (3 x 108) / (2 x 106) = 150 meters

Yes, the wavelength at 56 Hz is longer than the wavelength at 2 MHz.

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