The shadow
When light shines on a translucent object, some of the light is scattered and absorbed by the material, while the rest passes through. This gives the object a softer appearance compared to transparent objects, as the light is diffused as it passes through.
When white light passes through a blue filter, the filter absorbs most of the colors in the white light spectrum and only allows blue light to pass through. As a result, the white light will appear blue after passing through the filter.
The red car will appear red, as the yellow light will be absorbed by the red pigment of the car and only red light will be reflected.
The light on the wall will likely be green, as the green plastic will filter out light of other colors and only allow green light to pass through.
When white light shines onto a violet object, the violet part of white light reflects off of the object, causing you to see violet. White light it ROYGBIV, which is the colours of the rainbow (red, orange, yellow, green, blue, indigo, and violet). So white light IS the combination of ALL of these colours.
When light shines on a translucent object, some of the light is scattered and absorbed by the material, while the rest passes through. This gives the object a softer appearance compared to transparent objects, as the light is diffused as it passes through.
When white light passes through a blue filter, the filter absorbs most of the colors in the white light spectrum and only allows blue light to pass through. As a result, the white light will appear blue after passing through the filter.
Stars are the only objects in space that give off their own light.Other objects are visible only if a star shines on them.
The red car will appear red, as the yellow light will be absorbed by the red pigment of the car and only red light will be reflected.
The light on the wall will likely be green, as the green plastic will filter out light of other colors and only allow green light to pass through.
The cap is called 'green' because it absorbs all other colors of light, leaving only the green light to bounce from it to your eyes. If no green light shines on it, then there's no light to bounce from it to your eyes, and it appears black. If you only shine blue light on it, then there's no green light shining on it.
When white light shines onto a violet object, the violet part of white light reflects off of the object, causing you to see violet. White light it ROYGBIV, which is the colours of the rainbow (red, orange, yellow, green, blue, indigo, and violet). So white light IS the combination of ALL of these colours.
Yes. The sun is the only object in the solar system that shines with its own light. If anything else in the solar system is visible, it's only because the big flashlight in the center is shining on it.
A "white surface" is one that reflects all colors of light. That's why it looks white when a white light shines on it, and that's why you call it "white". If only red light shines on it, then it looks red.
the other colors of light present in white light, allowing only red light to pass through. The filter selectively absorbs all colors except red.
No. Just like the planets and their moons, you can only see a comet when the sun shines on it ... just as you have to shine a flashlight on a rock in order to see it at night. The sun is the only thing in our solar system that makes its own light.
A purple object reflects primarily purple light, which is a combination of red and blue wavelengths. When light shines on the object, it absorbs all other colors of the spectrum and reflects back only the purple light to our eyes.