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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.
How do wavelengths absorbed by a can difffer from the wavelengths re-radiated from the can?
Wavelengths absorbed by a can depend on the material's properties, such as its composition and thickness. The wavelengths re-radiated from the can are influenced by its temperature—the higher the temperature, the shorter the wavelengths emitted. This difference in absorption and re-radiation wavelengths can be used in applications like thermal imaging to detect temperature variations.
How do the wavelengths of electromagnetic energy absorbed by materials on Earth compare to the wavelengths radiated by materials on earth?
Materials on Earth typically absorb shorter wavelengths of electromagnetic energy compared to the wavelengths they radiate. This is because materials absorb higher energy radiation (such as ultraviolet or visible light) and emit lower energy radiation (such as infrared or thermal radiation).
What are two ways electromagnetic waves differ from each other?
Electromagnetic waves differ in their wavelengths, which determine their energy and frequency. They also differ in their behavior, with some being able to penetrate materials while others are reflected or absorbed.
What color is seen when all wavelengths of light are absorbed?
Black is seen when all wavelengths of light are absorbed because no light is reflected back to the eyes.
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.
How do the wavelengths absorbed by the cans differ from the wavelengths radiated from the cans?
The wavelength radiated from the cans are shorter than the ones absorbed. This is because the intensity is less than before. Take for example a bouncing rubber ball. When you drop the ball from a certain height, it bounces back, but lower than before because there is less energy.
How do wavelengths absorbed by a can difffer from the wavelengths re-radiated from the can?
Wavelengths absorbed by a can depend on the material's properties, such as its composition and thickness. The wavelengths re-radiated from the can are influenced by its temperature—the higher the temperature, the shorter the wavelengths emitted. This difference in absorption and re-radiation wavelengths can be used in applications like thermal imaging to detect temperature variations.
How do the wavelengths of electromagnetic energy absorbed by materials on Earth compare to the wavelengths radiated by materials on earth?
Materials on Earth typically absorb shorter wavelengths of electromagnetic energy compared to the wavelengths they radiate. This is because materials absorb higher energy radiation (such as ultraviolet or visible light) and emit lower energy radiation (such as infrared or thermal radiation).
What absorbed the most energy that is radiated from earths surface?
the greenhouse
What are two ways electromagnetic waves differ from each other?
Electromagnetic waves differ in their wavelengths, which determine their energy and frequency. They also differ in their behavior, with some being able to penetrate materials while others are reflected or absorbed.
Do the sunbeams absorbed by the earth get radiated as a different kind of radiation?
They mostly get radiated out as Infra-red (Heat) and microwave radiation
Solar radiation that is not reflected by Earth's systems is absorbed This absorbed energy is then reradiates as what into space?
This absorbed energy is then re-radiated as heat
What 3 things can happen to radiated heat when it arrives at any surface?
The 3 things that can happen to radiated heat when it arrives at any surface are:1. It can be Transmitted2. Absorbed3. Reflected
What makes a star visable?
The light, radiated by the star is absorbed by our eyes.
What color wavelengths are absorbed during photosynthesis?
The green color is being absorbed
What color is seen when all wavelengths of light are absorbed?
Black is seen when all wavelengths of light are absorbed because no light is reflected back to the eyes.
