Violet light wavelengths bend the most, and red light wavelengths bend the least when passing through a medium, such as air or water. This phenomenon is known as dispersion, where different colors of light are refracted at different angles due to their differing wavelengths.
A blue ray would bend light the most in a prism, as shorter wavelengths of light (like blue) are refracted more than longer wavelengths (like red or green) when passing through a medium like glass.
The light rays that pass through the top of the droplet will bend the most, while the rays that pass through the sides will bend the least. This is due to the variation in the angle of incidence at the different surfaces of the droplet.
Violet bends the most The sequence of bending in increasing order is like violet, indigo, blue, green, yellow, orange,red Idk abt least
in the spectrum each color has a wavelength in which red has the highest wavelength while violet has smallest wavelength, so particles are able to disperse violet more effectively than red, so violet is deviated the most & red is deeviated the least...can u figure out why traffic lights have stop sign as red??
Waves with longer wavelengths relative to the size of the obstacle they encounter will be diffracted the most. This is because longer wavelengths bend around obstacles more easily, allowing wave energy to spread out in all directions.
A blue ray would bend light the most in a prism, as shorter wavelengths of light (like blue) are refracted more than longer wavelengths (like red or green) when passing through a medium like glass.
The light rays that pass through the top of the droplet will bend the most, while the rays that pass through the sides will bend the least. This is due to the variation in the angle of incidence at the different surfaces of the droplet.
Violet bends the most The sequence of bending in increasing order is like violet, indigo, blue, green, yellow, orange,red Idk abt least
in the spectrum each color has a wavelength in which red has the highest wavelength while violet has smallest wavelength, so particles are able to disperse violet more effectively than red, so violet is deviated the most & red is deeviated the least...can u figure out why traffic lights have stop sign as red??
Waves with longer wavelengths relative to the size of the obstacle they encounter will be diffracted the most. This is because longer wavelengths bend around obstacles more easily, allowing wave energy to spread out in all directions.
The light ray that enters the drop at the steepest angle will bend the most, due to the phenomenon of refraction. In contrast, the light ray that enters the drop at a shallower angle will bend the least. This is because refraction is greatest when light changes medium at a steeper angle.
Red light will bend the least, blue light will bend the most. This is due to the phenomenon of dispersion, where different colors of light have different wavelengths and thus different indices of refraction in water, causing them to bend by varying amounts. Blue light has a shorter wavelength and thus a higher index of refraction compared to red light.
Blue light is most readily scattered by the Earth's atmosphere, which is why the sky appears blue during the day. This scattering is due to shorter blue wavelengths being more easily scattered by the air molecules compared to longer wavelengths like red or green.
Violet light has the least critical angle among visible colors of light. This is because violet light has the shortest wavelength, which causes it to bend the most when passing through different mediums.
Green light is the least useful wavelength for photosynthesis because it is mostly reflected by chlorophyll. Red and blue light are the most useful wavelengths for photosynthesis as chlorophyll absorbs them most efficiently for the process.
Longer waves, such as radio waves, diffract the most when encountering an obstacle because their longer wavelengths enable them to bend around the obstacle more effectively. This phenomenon is known as diffraction, where waves bend around corners or spread out when encountering an obstacle.
The violet colour will be refracted the most, it has a shorter wave length and a higher frequency. The red light will be refracted the least, with its longer wave length and lower frequency.