A different definition of radiation flux

This conversation was about the difference between radiant flux and radiation flux.In summary, the conversation was about the difference between radiant flux and radiation flux. Radiant flux is a measure of the amount of electromagnetic radiation received by an object from a given source, while radiation flux can refer to any type of radiation. It was also noted that radiant flux is more commonly used when discussing the sun, while radiation flux can encompass all types of radiation.
  • #1
shanepitts
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Would anyone have a different explanation and maybe an example of radiation flux? Here is the Wikipedia definition "Radiation flux is a measure of the amount of radiation received by an object from a given source", which is quite clearly explained.
 
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  • #2
Is there something you didn't understand about the wikipedia explanation that we can help you with?
 
  • #3
I am not sure. I fathom that, for example, on the amount of radiation we receive from the Sun is the radiation flux. Is this accurate?
 
  • #4
That looks correct to me, though I think the term "radiant flux" is more appropriate for the sun since we usually only care about the EM radiation of the sun: http://en.wikipedia.org/wiki/Radiant_flux

Radiant flux is only concerned with EM radiation, while radiation flux can refer to any kind of radiation, including particle radiation.
 
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  • #5


I can provide a different perspective on the definition of radiation flux. While the Wikipedia definition is accurate, it only describes the amount of radiation received by an object. Another aspect to consider is the direction of the radiation. Radiation flux can also refer to the rate at which radiation is emitted or transmitted from a source in a specific direction.

For example, in the field of astrophysics, we often measure the radiation flux from stars. This not only tells us how much radiation is being emitted from the star, but also the direction in which it is being emitted. This can provide valuable information about the physical properties of the star and its surrounding environment.

Another example is in the study of heat transfer, where radiation flux is used to describe the transfer of thermal energy through electromagnetic waves. In this case, the direction of the radiation flux is important in determining the rate of heat transfer between two objects.

In summary, while the Wikipedia definition of radiation flux is accurate, there are other aspects to consider such as the direction of the radiation. Therefore, it is important to have a comprehensive understanding of radiation flux in order to fully grasp its significance in various scientific fields.
 

Related to A different definition of radiation flux

What is radiation flux?

Radiation flux is the amount of electromagnetic radiation that passes through a given area in a given amount of time. It is measured in watts per square meter (W/m2).

How is radiation flux different from radiation intensity?

Radiation flux is a measure of the amount of radiation that passes through an area, while radiation intensity is a measure of the strength of the radiation at a specific point. Flux takes into account the area over which the radiation is spread, while intensity does not.

What are the units of measurement for radiation flux?

Radiation flux is typically measured in watts per square meter (W/m2), but can also be expressed in other units such as joules per square meter per second (J/m2s).

How is radiation flux related to the distance from a radiation source?

As distance from a radiation source increases, the radiation flux decreases. This is because the radiation is spread out over a larger area, resulting in a lower flux value.

What factors can affect radiation flux?

Some factors that can affect radiation flux include the type of radiation, the distance from the radiation source, the angle at which the radiation is incident on a surface, and the presence of any shielding or barriers.

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