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 white light shines on a violet object, the object absorbs most of the wavelengths in the white light spectrum and reflects primarily violet wavelengths. This means that the violet object appears violet because it absorbs other colors and reflects violet.
When white light shines on an opaque violet object, the object absorbs most of the colors in the white light spectrum except violet. The violet light is reflected off the object, making it appear violet to our eyes.
When red light shines on a red object, the object will reflect the red light and appear red. If white light shines on a red object, the object will absorb all colors except red, which it will reflect, making it appear red as well.
When a blue light shines on a green object, the green object will absorb some of the blue light and reflect the remaining green light. This is because the green object absorbs light of complementary colors, in this case blue, and reflects light of its own color, green.
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.
it reflects violet and absorbs the other colors
White light contains all the wavelengths of the visible spectrum at equal intensity. The different colors of light, except violet, are absorbed when white light shines on an opaque violet object. The violet color is reflected.
When white light shines on a violet object, the object absorbs most of the wavelengths in the white light spectrum and reflects primarily violet wavelengths. This means that the violet object appears violet because it absorbs other colors and reflects violet.
When white light shines on an opaque violet object, the object absorbs most of the colors in the white light spectrum except violet. The violet light is reflected off the object, making it appear violet to our eyes.
When red light shines on a red object, the object will reflect the red light and appear red. If white light shines on a red object, the object will absorb all colors except red, which it will reflect, making it appear red as well.
Red: absorbedOrange: absorbedYellow: absorbedGreen: absorbedBlue: absorbedIndigo: absorbedViolet: reflected
When a blue light shines on a green object, the green object will absorb some of the blue light and reflect the remaining green light. This is because the green object absorbs light of complementary colors, in this case blue, and reflects light of its own color, green.
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 light shines on different colored objects, each object absorbs certain wavelengths of light and reflects others. The reflected light is what we see as the color of the object. For example, a red object absorbs most light wavelengths except for red, which it reflects. Therefore, we perceive the object as red.
The object that shines by its own light is called a luminous object. These objects emit light through a natural process, such as the sun or a star.
The photons all get absorbed. None of them make it to the other side to escape.
When red light shines on a prism, it will refract and disperse into its component colors (red, orange, yellow, green, blue, indigo, violet) due to their different wavelengths. This creates a spectrum of colors known as a rainbow.