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The product of (frequency) x (wavelength) is always the same number ... the speed
of the wave. So the lower frequencies must have longer wavelengths.
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A wave with a low frequency does it have a short wavelength?
The product of (frequency) x (wavelength) is always the same number ... the speedof the wave. So the lower frequencies must have longer wavelengths.
What can you infer from a wave with short wavelength?
Low amplitude
Does gamma rays have a low frequency and a short wavelength?
No. Gamma rays have a high frequency, and a short wavelength.
How does the frequency of radiant energy relate to the absolute temperature of the radiating source?
A low temp source emits low-frequency, long wavelength waves. A medium temp source emits medium frequency, medium wavelength waves. A high temp source emits high frequency, short wavelength waves.
Why does a light of low wavelength have high frequency?
We must keep in memory the following formula connecting wave velocity, wave frequency and wavelength. Namely, c = v l v is nu - frequency and l - lambda the wavelength Since for a constant value of wave velocity, v and l are inversely related. So as wavelength is low, then its frequency goes higher.
A wave with a low frequency does it have a short wavelength?
The product of (frequency) x (wavelength) is always the same number ... the speedof the wave. So the lower frequencies must have longer wavelengths.
What can you infer from a wave with short wavelength?
Low amplitude
If a wave have long wavelength it has a what frequency?
In that case, it will have a low frequency.
Does gamma rays have a low frequency and a short wavelength?
No. Gamma rays have a high frequency, and a short wavelength.
How does the frequency of radiant energy relate to the absolute temperature of the radiating source?
A low temp source emits low-frequency, long wavelength waves. A medium temp source emits medium frequency, medium wavelength waves. A high temp source emits high frequency, short wavelength waves.
Why does a light of low wavelength have high frequency?
We must keep in memory the following formula connecting wave velocity, wave frequency and wavelength. Namely, c = v l v is nu - frequency and l - lambda the wavelength Since for a constant value of wave velocity, v and l are inversely related. So as wavelength is low, then its frequency goes higher.
Is Long wavelength visible light have a speed that is slower than short wavelength light?
No. The speed of light is the same for long wave and short wave light. c=fw where w is the wavelength and f is the frequency. The speed c is a constant. The frequency is different for different wavelengths. High frequency for short waves and low frequency for long waves.
If a wave has a low frequency how do you describe the wave length?
The frequency of a wave is not directly related to the wave length. A low frequency wave or a high frequency wave may be either long-wave or short-wave.
A wave has a low speed but a high frequency What can you infer about its wavelength?
That's short. (Note that the question avoids any definition of 'low' or 'high', so any answer should suffice.)
How does the frequency of a wave change as its wave length changes?
You can see how the frequency of a wave changes as its wavelength changes by using the formula Velocity= wavelength x frequencyIf for example we are talking about the speed of light (Which does change) and the wavelength is reduced, then the frequency has to increase in order to balance out to the speed of light.Another way to view it is like this:The frequency of a wave changes with the wavelength by what happens to the wavelength. For instance, if the wavelength is doubled, the frequency is halved, and vise versa.
A low frequency sound is produced by a sound wave that?
An object vibrating relatively slowly produces sound waves that have low frequency and long wavelength.
What is an example of a low energy electromagnetic wave is?
The lower the frequency is, the less energy the electromagnetic wave carries. The wavelength is just (186,282 divided by the frequency) miles, or (300,000 divided by the frequency) kilometers.
