How does the wavelength and frequency change throughout the electromagnetic spectrum?
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5 points
From gamma ray waves to radio waves, wavelength decreases as frequency decreases
From radio to gamma ray waves, wavelength decreases as frequency increases
From gamma ray waves to radio waves, wavelength increases while frequency increases
From radio to gamma ray waves, wavelength increases as frequency decreases
From gamma ray waves to radio waves, wavelength increases while frequency decreases
As a wave moves through a medium, what does it carry with it?
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5 points
the particles of the medium
the energy transferred from the source of the wave
the force of the medium that the wave moves through
all of the above
none of the above
all of the above
both wrong >:[
From radio to gamma ray waves, the wavelength decreases as the frequency increases.
From gamma ray waves to radio waves, the correct relationship is that wavelength increases while frequency decreases. This can be explained by understanding the fundamental properties of waves in the electromagnetic spectrum.
The electromagnetic spectrum is a range of all possible electromagnetic radiation, organized based on the wavelength and frequency of the waves. At one end of the spectrum, we have gamma rays which have the shortest wavelength and highest frequency. At the other end, we have radio waves which have the longest wavelength and lowest frequency.
Wavelength is the distance between consecutive crests or troughs of a wave, while frequency is the number of complete waves passing a specific point per unit of time.
As we move from gamma rays to radio waves, both the wavelength and frequency change. In this case, the wavelength increases while the frequency decreases. This means that the distance between consecutive crests or troughs of the wave becomes larger, while the number of waves passing a particular point in a given time period decreases.
This relationship can be explained by the wave equation:
c = λν
where c represents the speed of light, λ represents the wavelength, and ν represents the frequency. Since the speed of light is constant throughout the electromagnetic spectrum, as the wavelength increases, the frequency must decrease and vice versa.
So, the correct answer is: From gamma ray waves to radio waves, wavelength increases while frequency decreases.