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How do the wavelengths absorbed differ from the wavelengths radiated?
The wavelengths absorbed are typically shorter than the wavelengths radiated. Absorbed wavelengths are determined by the energy levels of the absorbing material, while radiated wavelengths are usually determined by the temperature of the object emitting the radiation.
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.
What form of electromagnetic energy is radiated from the Earth's surface with the greatest intensity?
Infrared radiation is radiated from the Earth's surface with the greatest intensity. This is due to the Earth absorbing sunlight and then re-emitting it at longer wavelengths in the form of infrared radiation.
Which form of electromagnetic energy is radiated from the earths surface with the greatest intensity?
infared
How do the wavelengths absorbed differ from the wavelengths radiated?
The wavelengths absorbed are typically shorter than the wavelengths radiated. Absorbed wavelengths are determined by the energy levels of the absorbing material, while radiated wavelengths are usually determined by the temperature of the object emitting the radiation.
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 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.
What does the earth do with the radiation that reaches us?
Part of the radiation is immediately radiated back into space. The remainder is absorbed; most of what is absorbed will be radiated back into space soon (as the materials heat up, they radiate out more infrared radiation).
How Is Light Energy Radiated From The Sun?
It is radiated from electromagnetic waves.
What form of electromagnetic energy is radiated from the Earth's surface with the greatest intensity?
Infrared radiation is radiated from the Earth's surface with the greatest intensity. This is due to the Earth absorbing sunlight and then re-emitting it at longer wavelengths in the form of infrared radiation.
Most of the solar radiation absorbed by Earth's surface is later radiated back into space as which type of electromagnetic radiation?
Most of the solar radiation absorbed by Earth's surface is later radiated back into space as infrared radiation. This process helps to maintain Earth's energy balance and regulate its temperature.
Where in the spectrum is the atmosphere opaque?
The atmosphere is mostly opaque in the ultraviolet (UV) and infrared (IR) regions of the electromagnetic spectrum. Specifically, UV radiation is absorbed by ozone in the stratosphere, while IR radiation is absorbed by water vapor, carbon dioxide, and other greenhouse gases. This opacity limits the transmission of these wavelengths, affecting how energy from the sun reaches the Earth's surface and how heat is radiated back into space.
Which form of electromagnetic energy is radiated from the earths surface with the greatest intensity?
infared
What absorbed the most energy that is radiated from earths surface?
the greenhouse
When you turn a heat lamp on What happens to the electrical energy?
It gets radiated away, as infrared radiation, which is part of the electromagnetic spectrum.It gets radiated away, as infrared radiation, which is part of the electromagnetic spectrum.It gets radiated away, as infrared radiation, which is part of the electromagnetic spectrum.It gets radiated away, as infrared radiation, which is part of the electromagnetic spectrum.
