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The question is a little off. Sunlight isn't 'attracted' to anything, in the sense that light 'wants to move toward' certain colors. But when light shines on objects of different colors, different parts of the light are reflected off of the objects and absorbed by the objects. An object that is close to a very pure white color will reflect most of the light that shines on it; an object that is close to a very pure black color will absorb most of the light that shines on it, and so will absorb more energy.
Objects of greater mass have more gravitational pull.
large objects do my names JC
Opaque objects do not allow light to pass through them, so they block the path of light. This means that we are not able to see through them. Instead, we see these objects by the light that bounces off their surfaces and enters our eyes, which allows us to perceive their shape, color, and texture.
The total momentum of all the objects does not change when two or more objects collide together. An object that is smaller in mass can not have more momentum after the collusion.
Because dark colours absorbs light, and energy;and its named absortion coefficient. ============================== Some substances and objects made from them reflect more light and absorb less. Other substances and objects made from them reflect less light and absorb more. The ones that reflect more and absorb less are the ones that appear lighter to us. Why ? Because they absorb less light and reflect more of it toward our eyes.
Because black color is travel and heat more then any color and more then white.
White will reflect more than any other color, but mirrors or shiny metal surfaces will reflect even more.
Different materials absorb different wavelengths of visible radiation from sources like the sun or light bulbs. The wavelengths that are not absorbed are reflected as visible radiation, and the color we see depends on the wavelength of that reflected light, with a longer wavelength correlating to more reddish colors, and shorter wavelengths with more bluish colors. White objects reflect all of the visible radiation that strike them, which is why they absorb less heat than black objects, which reflect much less visible radiation.
Different materials absorb different wavelengths of visible radiation from sources like the sun or light bulbs. The wavelengths that are not absorbed are reflected as visible radiation, and the color we see depends on the wavelength of that reflected light, with a longer wavelength correlating to more reddish colors, and shorter wavelengths with more bluish colors. White objects reflect all of the visible radiation that strike them, which is why they absorb less heat than black objects, which reflect much less visible radiation.
The most refractive color is white, so the whiter U are the more U will refract/reflect~
all materials reflect light, which makes color but more atomically dense materials reflect light better
They have a lower "albedo" if you will. Light objects reflect light at a greater rate than dark objects which absorb it. This is why dark objects heat up more than light ones.
White, since we can only see the color when all of the light hitting it is reflected.
dark colors reflect less light and bright colors reflect more light that is why they are called dark and light
Dark objects absorb heat, while bright shiny ones reflect heat back.
You can diffract the light reflect from the object and see what range of spectrum is absorbed and what is reflected. It is to mentioned, human had trichromatic vision. We base our vision of colour from the portion of red blue and green. The real colour in spectrum is however continue of colour from red to violet. By having only 1 colour of light reflect, the object had to specifically absorb exact the other 2 portion of light human can see which is extremely rare for natural objects without specific design to absorb light at exactly cover the other 2 spectrum human can see. So it is most objects would reflect more than one colour of light.