In the intensity vs wavelength graph of blackbody radiation. How some photons still radiate energy value other than the peak value?
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at a given temperature intensity of radiation emitted from a black body increases with decrease of wave length
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In the intensity vs wavelength graph of blackbody radiation some photons still radiate energy value other than the peak value because:
- The graph displays the amount of radiation (intensity) produced at each wavelength as a function of temperature. For instance, you wouldn't anticipate seeing much low wavelength radiation at 3000K compared to a hotter temperature.
- However, you would expect to see more high-energy, low wavelength radiation given the much higher temperature (6000K). This is what the graph shows.
- Peak wavelength gets shorter as temperature gets higher. This makes sense given that low wavelength photons have higher energies.
- The distribution of various different photons at various different energies at a specific temperature is shown on the graph. The peak of the distribution indicates which of these photons occurs most frequently at the given temperature.
To learn more:
https://brainly.in/question/2093757
https://brainly.in/textbook-solutions/q-40-graph-shows-variation-radiation-intensity-unit
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