When light hits tracing paper, some of it gets scattered, some gets absorbed, and the rest passes through the paper due to its translucent properties. This allows for the tracing paper to transmit some of the light while diffusing it, producing a softer, more diffused light compared to opaque surfaces.
When light hits a white piece of paper, the paper reflects most of the light across the entire visible spectrum. This reflection is what makes the paper appear white to our eyes, as it doesn't absorb any specific color wavelength and instead reflects all wavelengths equally.
When red light hits red paper, the paper appears red because it selectively reflects the red light while absorbing other colors. The red pigment in the paper absorbs all colors of light except red, which is reflected back to our eyes, making the paper appear red.
Light hitting wax paper will be partially absorbed, transmitted, and reflected. The wax paper is semi-transparent, so some light will pass through while some will bounce off the surface. The absorbed light energy may cause the wax paper to heat up slightly.
The red paper absorbs all of the other colors in the spectrum and reflects red so that is the color it appears to be.
The black ink absorbs most of the white light, reflecting very little back to our eyes. This absorption is what makes the ink appear black. The white paper reflects all colors of the white light, creating the contrast between the black ink and the paper.
When light hits a white piece of paper, the paper reflects most of the light across the entire visible spectrum. This reflection is what makes the paper appear white to our eyes, as it doesn't absorb any specific color wavelength and instead reflects all wavelengths equally.
When red light hits red paper, the paper appears red because it selectively reflects the red light while absorbing other colors. The red pigment in the paper absorbs all colors of light except red, which is reflected back to our eyes, making the paper appear red.
Light hitting wax paper will be partially absorbed, transmitted, and reflected. The wax paper is semi-transparent, so some light will pass through while some will bounce off the surface. The absorbed light energy may cause the wax paper to heat up slightly.
it goes nowhere
The light sctters into a spectrum.
It shines by the light.
when light hits a rough surface it scattters.
When a straight light ray hits a smooth mirror, the regular reflection happens.
It depends on what kind of light. If a laser hits it, it will burn straight through it. If it is just a normal room light, you will be able to see it, as the light reflects off the tissue paper into your eye, enabling you to see it, and if it is sunlight through a magnifying glass, it will ignite. If it is just out in the sun for a few minutes-as far as i am aware-nothing happens except you being able too see it.
it goes nowhere
it reflects
The light reflects or refracts on hitting the medium.