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Well, seeing as it seperates visible light, it follows that it only seperates that visible light into the visible spectrum. You can't make radiowaves or UV rays out of visible light.
No, electromagnetic radiation does not include only visible light.
Solar eclipses occur when the moon moves in front of the sun, causing the suns light to be temporarily blocked. Since the sun is only visible from the Earth's surface during the day, this is the only time that a solar eclipse can occur.
Yes because it only have light in common?
the light spectrum
visible light is the only VISIBLE light.
No, it is also observed in case of UV, Xray, Gamma ray.
Well, seeing as it seperates visible light, it follows that it only seperates that visible light into the visible spectrum. You can't make radiowaves or UV rays out of visible light.
Only by using a magnetometer. It isn't visible to the eye (which sees light) and it is very weak.
No, electromagnetic radiation does not include only visible light.
Only a small piece of the light spectrum is visible to us.
the range of the spectrum that's known as "visible light"
Solar eclipses occur when the moon moves in front of the sun, causing the suns light to be temporarily blocked. Since the sun is only visible from the Earth's surface during the day, this is the only time that a solar eclipse can occur.
white light doesn't produce interference patterns because white light is the entire spectrum of light. only light of a singular frequency produces interference patterns. white light does actually produce interference patterns but because there are so many frequencies involved the patterns blend with each other and are not detectable by eye.
Yes because it only have light in common?
light dependent reactions only occur in light this means thier reations increases with light intensity while light independent can occur in the dark
Dispersion will occur, in the sense that the phase velocity of the different wavelengths will be different. What you may be asking is whether refraction (a change in the direction of the light) will occur. Refraction will only be visible if the light impacts at an oblique angle, not 90 degrees.