You're doing the Solar Scramble page with the crossword? If so, I can't tell you a right answer. But just in case you can figure it out yourself, there is a major loss of energy when it "radiates" from the core to the radiation zone. I think the energy would be reduced by 70% according to a website I found.
The sun's temperature ___________________ as energy moves from the core to the radiation zone?
The layer of the sun which moves heat from the radiative layer to the photosphere is the convective zone.
The sun's temperature falls as energy moves from the core to the radiation zone.
convective layer
radiative layer.
The photosphere gives off heat and visible light.
The Photosphere
In order from the core to the outer extremes.Main areas in bold1. Core2. Radiative zone3. Convective zone4. Photosphere5. Chromosphere6. Corona7. Sunspot8. Granules9. ProminenceSee link for more information.
convective layer
radiative layer
radiative layer.
The photosphere gives off heat and visible light.
It is the radiation of heat.
Heat travels through the radiative layer of the sun from the core outwards in the form of photons. These photos are so energetic in this confined space that they don't take a straight path outwards, they bounce around inside the sun for hundreds of thousands of years before they finally reach the surface of the sun after which they take only eight minutes to travel the nintey-three million miles to us.
Radiative heat loss.
The Photosphere
Radiative heat transfer, or simply: radiation. As opposed to conduction and convection.
In order from the core to the outer extremes.Main areas in bold1. Core2. Radiative zone3. Convective zone4. Photosphere5. Chromosphere6. Corona7. Sunspot8. Granules9. ProminenceSee link for more information.
Since the space between the moon and other objects is essentially a vacuum, the only feasible mode for heat transfer is by radiative heat transfer.
we would see the heat and light radiating as is it were to explode in that area