This option is incorrect because an increase in frequency corresponds to a decrease in wavelength. In other words, as frequency increases, the wavelength decreases. Red light has a lower frequency and a longer wavelength compared to other colors in the visible spectrum.
This option is incorrect because it suggests that a decrease in frequency corresponds to a decrease in wavelength. However, as mentioned earlier, an increase in frequency leads to a decrease in wavelength. Red light has a lower frequency and a longer wavelength compared to other colors in the visible spectrum.
A fact that red light has a greater wavelength while wavelength and frequency are inversely proportional to each other hence, red light has a lesser frequency compared to other colors in the visible spectrum, making it suitable for use in a photographic darkroom.
This option is incorrect because it implies that an increase in frequency corresponds to an increase in wavelength. As mentioned earlier, an increase in frequency leads to a decrease in wavelength. Red light has a lower frequency and a longer wavelength compared to other colors in the visible spectrum.
A fact that red light has a greater wavelength while wavelength and frequency are inversely proportional to each other hence, red light has a lesser frequency compared to other colors in the visible spectrum, making it suitable for use in a photographic darkroom.