No, blue and red visible light have different wavelengths. if you see the rainbow, blue and red can been seen on separate stripes which means they have different wavelengths.
The shortest wavelengths of visible light are violet light, which typically has a wavelength range of about 380-450 nanometers. This corresponds to the highest frequency and energy within the visible spectrum.
The shortest wavelength of visible light for your eye is the wavelength of the lastcolor you can see on the blue end of the rainbow. It may be slightly different forsomeone else's eye.
It is electromagnetic radiation, which is the same in composition as visible light but has a much higher frequency/shorter wavelength, and will do damage to any biological material it passes through. Both travel at the same speed ('velocity of light') but gamma radiation can penetrate material opaque to visible light.
because the velocity of violet is low and refraction always depends on velocity Amount of scattering is directly proportional to its wavelength.as violet scatters more it has short wavelength.
If you're talking about how long it takes light to get from here to there ... all wavelengths of light, as well as all wavelengths of every other example of electromagnetic radiation, all travel at the same speed.
The shortest wavelengths of visible light are violet light, which typically has a wavelength range of about 380-450 nanometers. This corresponds to the highest frequency and energy within the visible spectrum.
No, red light and infrared light are not the same. Red light has a longer wavelength and is visible to the human eye, while infrared light has a shorter wavelength and is not visible to the human eye.
The visible light with the shortest wavelength is the last color you can see on the blue/violet end of the rainbow. It's not exactly the same for all eyes.
Different.
The shortest wavelength of visible light for your eye is the wavelength of the lastcolor you can see on the blue end of the rainbow. It may be slightly different forsomeone else's eye.
The shortest visible wavelength is the last color you can see on the blue/violet end of the spectrum. It's not exactly the same for all eyes.
The visible light with the shortest wavelength is the last color you can see on the blue/violet end of the rainbow. It's not exactly the same for all eyes.
It is electromagnetic radiation, which is the same in composition as visible light but has a much higher frequency/shorter wavelength, and will do damage to any biological material it passes through. Both travel at the same speed ('velocity of light') but gamma radiation can penetrate material opaque to visible light.
because the velocity of violet is low and refraction always depends on velocity Amount of scattering is directly proportional to its wavelength.as violet scatters more it has short wavelength.
If you're talking about how long it takes light to get from here to there ... all wavelengths of light, as well as all wavelengths of every other example of electromagnetic radiation, all travel at the same speed.
Yes.It is the same as visible light but.has a longer wavelength than red light, hence "infrared"
wavelength frequency energy are different. speed should be the same.