When red light passes through a green filter, the filter absorbs the red light because it is not the same wavelength as the green light the filter is designed to transmit. The green filter only allows green light to pass through while absorbing or blocking other colors like red.
The green filter only allows green light to pass through, blocking all other colors of light, including red light. The red light is absorbed or reflected by the filter, resulting in no red light passing through.
The red light sails straight through the red filter unimpeded, and is then completely absorbed by the fabric. Since there's no green light floating around, there is no light at all to bounce off of the dress toward your eyes, and the dress appears black.
Red light typically bends less than green light when it passes through a medium due to the different wavelengths of the two colors. This phenomenon is known as dispersion. Green light has a shorter wavelength compared to red light, causing it to refract more when passing through a medium.
The red light is absorbed by the green filter and therefore no light passes through the filter
When red light passes through a green filter, the filter absorbs the red light because it is not the same wavelength as the green light the filter is designed to transmit. The green filter only allows green light to pass through while absorbing or blocking other colors like red.
The green filter only allows green light to pass through, blocking all other colors of light, including red light. The red light is absorbed or reflected by the filter, resulting in no red light passing through.
green
The red light sails straight through the red filter unimpeded, and is then completely absorbed by the fabric. Since there's no green light floating around, there is no light at all to bounce off of the dress toward your eyes, and the dress appears black.
Red light typically bends less than green light when it passes through a medium due to the different wavelengths of the two colors. This phenomenon is known as dispersion. Green light has a shorter wavelength compared to red light, causing it to refract more when passing through a medium.
The red light is absorbed by the green filter and therefore no light passes through the filter
The color of light that passes through a filter depends on the properties of the filter. If the filter is red, only red light will pass through. If the filter is blue, only blue light will pass through, and so on.
Yes, when white light passes through a green glass bottle, the green color of the glass absorbs the red and blue components of the white light, leaving only the green to pass through. The combination of green light passing through the bottle and the red and blue components being absorbed results in a magenta appearance.
When white light passes through a prism, it is dispersed into its component colors, creating a spectrum of colors known as a rainbow. These colors include red, orange, yellow, green, blue, indigo, and violet.
When white light passes through a purple filter, the filter will absorb most colors of the white light except for purple, allowing only purple light to pass through. When this filtered purple light then passes through a red filter, the red filter will absorb all colors except for red, thus only allowing red light to pass through. Therefore, you would see red light.
No, the red absorbs all the colors in the light exceptred.
When light passes through a prism, it is refracted slightly and separated into seven individual beams of coloured light - red, orange, yellow, green, blue, indigo and violet.