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What happens to the absorbed light energy when a light wave is absorbed by an object?
When a light wave is absorbed by an object, the absorbed light energy is converted into heat or other forms of energy within the object.
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 is the release of light energy by particles of matter that have absorbed energy?
"phosphorescence"Scattering is the release of light energy by particles of matter that have absorbed energy. The transfer of energy carried by light waves to particles of matter is absorption.
When light is absorbed light energy is transformed into stores energy?
true
What do the colors in a line spectrum represent?
Colors in a spectrum represent different frequencies of light. Light is formed when a particular atom or molecule is stimulated by some energy input - the energy forces an electron to jump to a higher level of excitation. When the electron falls back to its normal state it releases that energy as a photon of light, one that has a particular frequency determined by the atom or molecule and the amount of energy that the electron absorbed. So, when looking at a line spectrum (of, say, the light from a distant star) the color lines show the particular wavelengths of light that the star is giving off, which tell scientists a lot about what elements and compounds are in the star.
What happens to the absorbed light energy when a light wave is absorbed by an object?
When a light wave is absorbed by an object, the absorbed light energy is converted into heat or other forms of energy within the object.
What is it called when absorbed light energy is released by matter?
Example for light energy is absorbed or released, Heat is released and absorbed, electrical energy absorbed or released...
When absorbed light energy is released by matter it is called what?
Example for light energy is absorbed or released, Heat is released and absorbed, electrical energy absorbed or released...
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 is the release of light energy by particles of matter that have absorbed energy?
"phosphorescence"Scattering is the release of light energy by particles of matter that have absorbed energy. The transfer of energy carried by light waves to particles of matter is absorption.
When light is absorbed is light energy transformed into stored energy?
true
Is light energy transformed into stored energy when light is absorbed?
true
What percentage of the light energy that is absorbed by photosynthetic algae from the sun is available as food for herbivores in the oceans?
60 25 15 5
When light is absorbed light energy is transformed into stores energy?
true
What do the colors in a line spectrum represent?
Colors in a spectrum represent different frequencies of light. Light is formed when a particular atom or molecule is stimulated by some energy input - the energy forces an electron to jump to a higher level of excitation. When the electron falls back to its normal state it releases that energy as a photon of light, one that has a particular frequency determined by the atom or molecule and the amount of energy that the electron absorbed. So, when looking at a line spectrum (of, say, the light from a distant star) the color lines show the particular wavelengths of light that the star is giving off, which tell scientists a lot about what elements and compounds are in the star.
What happens when Some of the light absorbed by objects can turn into?
When light is absorbed by objects, it can turn into heat energy. This is because the absorbed light causes the atoms in the object to vibrate, which generates heat as a form of energy.
How do wavelengths absorbed by cans differ from wavelengths radiated?
Wavelengths absorbed by cans correspond to the specific frequencies of light or energy that the material of the can is able to capture and convert into heat. On the other hand, wavelengths radiated by cans relate to the frequencies of light or energy that the material emits as heat due to its temperature. The absorbed wavelengths contribute to the internal energy of the can, while the radiated wavelengths represent the release of that energy in the form of heat.
