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What happens to the infrared photons when they interact with a material"?
When infrared photons interact with a material, they can be absorbed, reflected, transmitted, or converted into heat energy.
What happens to the infrared photons as they interact with the material?
When infrared photons interact with a material, they can be absorbed, reflected, transmitted, or scattered. The specific outcome depends on the properties of the material and the wavelength of the infrared photons.
What happens to marterials that are not absorbed?
Materials that are not absorbed by the body are usually excreted. This can happen through various routes such as through urine, feces, sweat, or exhalation. In some cases, the material may be broken down by gut bacteria or eliminated through the liver in a process known as detoxification.
Is water absorbed in the pores?
Yes, water can be absorbed into the pores of certain materials like soil, rocks, and ceramics. The amount of water absorbed will depend on the size and structure of the pores, as well as the surface properties of the material.
When a material takes in or soaks up a liquid?
This process is called absorption. The material absorbs the liquid by taking it into its structure or pores. The absorbed liquid can change the properties of the material, such as its volume or texture.
What happens to light energy that is not absorbed by a material?
Light energy that is not absorbed by a material is typically reflected, transmitted, or scattered.
What happens to light that strikes an opaque material?
It gets absorbed or reflected
What happens to absorbed light when it interacts with different materials?
When absorbed light interacts with different materials, it can be reflected, transmitted, or absorbed by the material. The specific outcome depends on the properties of the material, such as its color, texture, and composition.
What happens to light when it is absorbed by a material?
When light is absorbed by a material, it is converted into other forms of energy, such as heat or chemical energy. This process causes the material to become warmer or undergo a chemical reaction.
What happens to the energy from the light when the material does not change?
When the material does not change, the energy from the light is typically absorbed and converted into heat within the material.
What happens when a wave is absorbed by a material or medium?
When a wave is absorbed by a material or medium, the energy of the wave is transferred to the particles of the material, causing them to vibrate and increase in temperature. This results in the wave losing its energy and eventually disappearing.
What happens to the thermal energy of a material when radiation is absorbed in a material?
When radiation is absorbed in a material, the thermal energy of the material increases due to the conversion of radiation energy into heat. This increase in thermal energy can lead to a rise in the temperature of the material.
What happens when light is absorbed by a material?
When light is absorbed by a material, the energy from the light is transferred to the material's atoms or molecules, causing them to vibrate and increase in temperature. This can lead to various effects such as heating up the material, triggering chemical reactions, or generating electricity.
What happens to the infrared photons when they interact with a material"?
When infrared photons interact with a material, they can be absorbed, reflected, transmitted, or converted into heat energy.
What happens when a photon is absorbed by a material or object?
When a photon is absorbed by a material or object, its energy is transferred to the material, causing its atoms or molecules to become excited. This can lead to various effects such as heating, the emission of light, or triggering chemical reactions.
What happens when light hits a opaque material?
Generally, some will get reflected and some will get absorbed and converted to heat.
What happens to the energy from the light when the material changes?
When a material changes, the energy from the light can be absorbed, reflected, or transmitted through the material. The way the energy is affected depends on the properties of the material and how it interacts with the light.
