The answer depends on what the question is!
heat of like can be reflected by a surface pushing away or flicking another molecule away
Materials that can be reflected include light, sound, and heat. Light waves can be reflected off smooth surfaces like mirrors, sound waves can be reflected off hard surfaces like walls, and heat can be reflected by materials with high thermal reflectivity such as aluminum foil.
Types of light energy are reflected off of shiny surfaces back into the atmosphere. Other surfaces, such as darker ones, absorb the light energy and heat up much quicker.
The term for the percentage of light reflected by something is called "reflectance." Reflectance measures the proportion of light that is reflected by a surface compared to the total amount of light that shines on it.
When light hits an opaque material, it is either absorbed or reflected. Opaque materials do not allow light to pass through, so they absorb the light energy and convert it into heat. Some of the light may also be reflected off the surface of the material.
When light strikes an opaque material, the light is absorbed or reflected by the material. This can cause the material to heat up if the light is absorbed, or create glare if the light is reflected.
When light hits an opaque object, it is absorbed or reflected. Opaque materials do not allow light to pass through them, so the light is either absorbed by the material and converted into heat, or reflected off its surface. This is why we are unable to see through opaque objects.
Because if they were darker then the tents would heat up quickly, if they are lighter then the light would be reflected along with the heat.
Visible light is either absorbed by the ground or reflected back into the atmosphere. Absorbed light is converted into heat energy, while reflected light contributes to what we see as color or brightness of the surface.
Both light and heat are forms of energy that can be transmitted through space. They can both be emitted from a source and detected by the senses. Additionally, both light and heat can be absorbed, reflected, or transmitted by various materials.
The moon does not radiate any heat or light of its own, it merely reflects the sun's heat and light. But since the moon is many times smaller than the sun, it only receives a small fraction of the heat and light -- and much less when it is in the shadow of the earth. However, most of the heat and light striking the moon is absorbed by the moon itself, or is reflected into space, thus there's very little reflected back to earth.
The moon does not radiate any heat or light of its own, it merely reflects the sun's heat and light. But since the moon is many times smaller than the sun, it only receives a small fraction of the heat and light -- and much less when it is in the shadow of the earth. However, most of the heat and light striking the moon is absorbed by the moon itself, or is reflected into space, thus there's very little reflected back to earth.