Objects that reflect all colors of light appear white because they are reflecting the entire visible spectrum equally. When all colors are reflected, they combine to create white light. This is in contrast to objects that absorb all colors, which appear black because they are not reflecting any light.
A white object would reflect more light compared to a black object. White objects reflect most of the wavelengths of visible light, making them appear brighter, while black objects absorb most of the light, appearing darker.
Yellow as white objects reflect the whole visible light spectrum. So the white ball would reflect the yellow light.
The white crayon would still appear white under blue light. This is because white objects reflect all colors of light equally, so the blue light would contribute to the overall brightness of the white crayon without changing its color.
Red. The colour of an object is determined by the wavelengths of light it reflects and absorbs, and a white object is one that reflects light across the visible spectrum. If only red light shines on it, it will reflect that light. In contrast, a black object appears black because it doesn't reflect any visible wavelengths, so would still appear black. Any object that doesn't reflect the wavelength of light you're using (eg blue objects) would also appear black because it isn't reflecting any light.
No, all objects reflect light to some degree, both shiny and non-shiny. Shiny objects tend to reflect more light due to their smooth and polished surfaces, while non-shiny objects may reflect less light and appear duller because of their rough or textured surfaces.
A white object would reflect more light compared to a black object. White objects reflect most of the wavelengths of visible light, making them appear brighter, while black objects absorb most of the light, appearing darker.
Yellow as white objects reflect the whole visible light spectrum. So the white ball would reflect the yellow light.
The white crayon would still appear white under blue light. This is because white objects reflect all colors of light equally, so the blue light would contribute to the overall brightness of the white crayon without changing its color.
Red. The colour of an object is determined by the wavelengths of light it reflects and absorbs, and a white object is one that reflects light across the visible spectrum. If only red light shines on it, it will reflect that light. In contrast, a black object appears black because it doesn't reflect any visible wavelengths, so would still appear black. Any object that doesn't reflect the wavelength of light you're using (eg blue objects) would also appear black because it isn't reflecting any light.
No, all objects reflect light to some degree, both shiny and non-shiny. Shiny objects tend to reflect more light due to their smooth and polished surfaces, while non-shiny objects may reflect less light and appear duller because of their rough or textured surfaces.
it would appear black because no red light strikes it
Red cloth illuminated by white light will reflect the red portion of the light spectrum, making it appear red.
Since it appears green in white light, it reflects the green part of the spectrum, absorbing all the other colors. In red light, it would not reflect any color, thus appearing black. Opaque objects absorb some of the light, and reflect the rest.
They will look red. This is because red boots only reflect red light. If white light was shining on them then they would still appear red because the red light would be reflected into your eyes and the other colours from the spectrum would be absorbed. However, if, for example blue light was shining on them, they would look dark/black because there is no red light to reflect.
It would appear black because the object would not reflect any of the colors of light back.
A black ball would appear black in red light because black objects absorb all colors of light and do not reflect any. Therefore, in red light, the black ball will not reflect any light and will appear black.
White objects reflect heat and light energy. For example if you live in a white house, the heat and light energy bounces off the surface of the house so you would feel cool.