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i think it is a reflector of light as we are able to see a leaf in the presence of light, it means when light bounces back into our eye, we can see it otherwise we would not be able to see it. however it is not a good reflector of light, but a poor reflector of light.
No, you can be both good and evil. This is the same concept. The object is either a good absorber or a good reflector, and can not be both. Black is a good absorber, white is a good reflector.
Copper is a poor reflector of light due to its reddish-brown color and high absorption rate. Aluminum, on the other hand, is a good reflector of light due to its high reflectivity property, making it commonly used in reflective surfaces and mirrors.
A good absorber of radiation is a good emitter. Radiation is the energy that that comes from a source and travels through space or through something. Some examples of radiation include light, heat and sound.
Marble is neither a good radiator reflector nor a good absorber. It has poor thermal conductivity and will not efficiently reflect or absorb heat. Materials with higher thermal conductivity, such as metals, are better suited for these purposes.
i think it is a reflector of light as we are able to see a leaf in the presence of light, it means when light bounces back into our eye, we can see it otherwise we would not be able to see it. however it is not a good reflector of light, but a poor reflector of light.
i think it is a reflector of light as we are able to see a leaf in the presence of light, it means when light bounces back into our eye, we can see it otherwise we would not be able to see it. however it is not a good reflector of light, but a poor reflector of light.
No, you can be both good and evil. This is the same concept. The object is either a good absorber or a good reflector, and can not be both. Black is a good absorber, white is a good reflector.
Copper is a poor reflector of light due to its reddish-brown color and high absorption rate. Aluminum, on the other hand, is a good reflector of light due to its high reflectivity property, making it commonly used in reflective surfaces and mirrors.
If an object doesn't reflect light, it will appear perfectly black. So yes, in a sense, a rock does reflect light, since this is what enables you to see it. It is, however, a poor reflector, compared with, say, water, or a mirror. If an object doesn't reflect light, it will appear perfectly black. So yes, in a sense, a rock does reflect light, since this is what enables you to see it. It is, however, a poor reflector, compared with, say, water, or a mirror.
Common sense. Is something is reflected, it cannot be absorbed, and vice versa. If something is a good absorber of heat, it tries to "hold onto" as much heat as possible; if something is a poor reflector of heat, it is bad at minimizing heat absorption.
A good absorber of radiation is a good emitter. Radiation is the energy that that comes from a source and travels through space or through something. Some examples of radiation include light, heat and sound.
Marble is neither a good radiator reflector nor a good absorber. It has poor thermal conductivity and will not efficiently reflect or absorb heat. Materials with higher thermal conductivity, such as metals, are better suited for these purposes.
This question demands a comparison - poor with regard to what?. Water is a good solvent compared with carbon dioxide. Water is a poor solvent compared with nitric acid.
Water is a poor conductor of electricity. However, the presence of ions in water make the solution a good conductor of electricity.
Materials that are dark and absorb light rather than reflecting it tend to be poor reflectors. Rough, matte surfaces also tend to reflect light in many directions rather than clearly reflecting it back, making them less effective as reflectors. Materials that are transparent or translucent also tend to be poor reflectors because light tends to pass through them rather than being reflected.
An object that is a good radiator of electromagnetic waves is typically a poor insulator, as it readily releases energy. Conversely, a good insulator tends to inhibit the transfer of heat. Reflectors of heat and absorbers of electromagnetic energy are typically different materials. A refractor of electromagnetic energy alters the path of light waves.