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The shiny materials are said to reflect most radiant energy. That's what gives them the quality of being shiny. Generally speaking, shiny materials are reflecting most of the light striking them, and this translates into the fact that shiny materials generally do not absorb radiant energy.

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15y ago

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Is it true that shiny materials absorb radiant energy?

I believe that shiny surfaces reflect radiant energy.


How does the color of something affect radiant energy?

The color of an object affects the amount of radiant energy it absorbs and emits. Darker colors absorb more radiant energy because they absorb more light, while lighter colors reflect more radiant energy. The color of an object can impact its temperature and heat absorption, making it an important consideration in energy efficiency and thermal management.


What absorbs radiant energy?

Darker colours (ex. black, navy blue) absorb more radiant energy than light colours, like white. Also, it helps if the surface is dull (not shiny) and cold at the beginning, because cold things absorb more radiant energy.


What happens to the temperature of a house as the suns radiant energy touches it?

The temperature of the house increases as the sun's radiant energy is absorbed by the building materials. This happens because the materials absorb the sun's energy and convert it into heat, raising the temperature inside the house.


Do dark colored materials absorb less radiant energy than light-colored materials?

I would say that the dark-colored would absorb moreradiant energy than the light-colored materials because the light-colored reflects...


What colors reflect radiant energy?

Colors like yellow, orange, and red reflect radiant energy. These colors have longer wavelengths and higher energy compared to other colors in the spectrum, allowing them to reflect more radiant energy.


What three things can happen when heat energy is transferred to matter by radiation?

The matter can absorb the radiant energy, causing its temperature to increase. The matter can reflect the radiant energy, bouncing it off without absorbing it. The matter can transmit the radiant energy, allowing it to pass through without being absorbed or reflected.


What materials are good reflector of radiant heat?

Materials such as aluminum, copper, and silver are good reflectors of radiant heat due to their high thermal reflectivity. These materials have the ability to reflect a high percentage of heat energy, making them effective in reducing thermal transfer.


How do black and white materials absorb heat differently?

Black materials absorb more heat than white materials because they absorb a wider range of wavelengths, including visible light and infrared radiation. This absorption leads to higher temperatures in black materials compared to white materials, which reflect more light and heat energy.


What materials reflect radiant energy?

The heating of a solid body, which absorbs radiant energy, was studied. With sufficient radiantenergy flow, the surface of the body can achieve such a high temperature that the physiochemical conversions of the material are unavoidable. Emphasis was placed upon the one-dimensional problem of the evaporation of the solid body, heated from the incident radiant energy. It is assumed that the flow of radiant energy is absorbed on the surface of the body and is equivalent to the thermal flow q on the boundary whose value depends on time t and on the surface temperature. There are two cases of surface evaporation examined: body evaporation and evaporation into the medium filled far from the body.


Solar collectors are devices that absorb energy from the sun?

radiant


How can the knowledge that black absorbs radiant energy and white emits radiant energy be used in real life?

This knowledge can be used in building design to help regulate temperature. Painting roofs white can reflect sunlight and keep buildings cooler, while using black materials for solar panels can help them absorb more energy. Understanding how different colors interact with heat can also be used in designing energy-efficient clothing or materials.