which of the following wavelengths of light is the highest in energy? - Join The Lights
- which of the following wavelengths of light is the highest in energy?
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- May 31, 2022
To be honest, I’m not sure. We are all of the above.
It’s a bit like being an amateur astronomer, where you only know what the stars are not.
There are several wavelengths of light, including ultraviolet, visible, and infrared. The energy in all four is the same, but each is more strongly focused by the atmosphere and has a different effect on the human eye. For the most part, we can’t see the far-away infrared when we’re not in the right atmosphere.
The longer wavelength infrared is the most useful for our eyes. So we can see more of it, but the longer wavelengths don’t penetrate to far into the atmosphere, so we see a very small fraction of it. The visible light is the most useful for our eyes, so we can see the far-away ultraviolet and the shorter visible. The longest wavelengths of light are less useful for our eyes, and because of that, we can see only about half of them.
Our eyes can see a wide variety of wavelengths, and we can see wavelengths that are longer than the visible part of the spectrum. So we can see more than just the visible part of the spectrum. But if we want to see a particular wavelength, we have to be in the right atmosphere. This will be important later in our discussion with the “vibrant” color spectrum.
If you want to see a specific wavelength of light, you have to be in the right place. This is why the famous line “The eye is the window to the soul” is so true. We can see certain wavelengths of light and not others depending on where we are. We can see more than the visible part of the spectrum because of how our eyes are constructed and how our eyes work.
If we want to see the high energy wavelength of light, we have to be in the right place. That means being in the right place when the light shines on you. All of the photons (light particles) that make up the visible spectrum are all made up of the same particles that make up the invisible spectrum. The only places where the photons from the visible spectrum don’t make it to are in the energy gap (a black hole).
The invisible wavelength of light is the one that we can’t see. This is because our eyes are an electromagnetic filter, with the photons being filtered out because we are not in the right place when the light shines on us. We are just on a plane where the photons are being filtered out.
Light at different wavelengths has different frequencies that can be measured by physicists. In order to get the energy we need to be able to see something at a particular wavelength. Light at a particular wavelength can be given by a number, and the energy is given by the number times the wavelength. For example, a yellowish light with a wavelength of 5,000 Angstroms is the same as a blue light with a wavelength of 5,000 Angstroms.
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