The amount of bending that occurs when light passes through a prism depends on the wavelength of the light. Blue light is bent the most, while red light is bent the least. This is due to the shorter wavelength of blue light compared to red light.
Violet light is bent the most when passing through a prism, due to its shorter wavelength compared to the other colors of light. This causes it to undergo more refraction, resulting in a more pronounced deviation from its original path.
Blue refracts the most in a prsm than yellow
Violet light is bent the most by a prism in the visible spectrum. This is because violet light has a shorter wavelength compared to the other colors in the spectrum, causing it to refract more when passing through a medium like a prism.
Blue light enters the prism and is refracted (bent) by the glass and emerges as blue light on the other side. Blue light is bent (refracted) most due to its slow(er) speed than say Red light which is faster and has a longer wavelength. Newton did an experiment like this and concluded that white light was made up of different colours of light together. Shine a white light through a prism and it will emerge as all the colours of the rainbow. Blue light is unchanged as it consists only of blue light Answered by Chris Banks.
When light enters a triangular prism, it gets refracted or bent at different angles depending on its wavelength (color). This causes the light to spread out into its different colors, a process known as dispersion. The shorter wavelengths (blue and violet light) are refracted more than the longer wavelengths (red and orange light), resulting in the separation of the colors.
Blue light deviates more than red light when passing through a prism because it has a shorter wavelength and higher frequency, causing it to refract more. This leads to different angles of separation for the colors of the light spectrum as they pass through the prism.
Ultraviolet (UV) light would be bent more than visible light when passing through a prism. This is because UV light has a shorter wavelength than visible light, and shorter wavelengths are refracted more strongly as they pass through different mediums. The degree of bending, or refraction, is determined by the refractive index of the material, which varies with the wavelength of light. As a result, UV light experiences greater bending compared to visible light.
red. bending is a physical phenomenon called defraction , the less frequency ( or the longer the wave length) the more the defraction. since the red has the least frequency it bends more than any colour.
In case of visible region, VIBGYOR, violet has the maximum bending.
Violet light refracts the most from a prism because it has a shorter wavelength compared to other colors, causing it to bend more when passing through the prism.
The different colors in white light are due to different wavelengths of light being bent at different angles as they pass through the prism. This separation of colors is called dispersion, with shorter wavelengths (like blue and violet) bending more than longer wavelengths (like red and orange), resulting in the spectrum of colors we see.