The discussion revolves around the question of how we perceive the entire Sun given that only a minuscule fraction of its emitted light reaches Earth. Participants explore the implications of light emission and visibility, particularly in the context of telescopic observations and the geometry of light propagation.
Participants generally agree that we do not see the entire Sun, but there is disagreement about the implications of the small fraction of light that reaches Earth and how it relates to what we can observe. The discussion remains unresolved regarding the extent of visibility and the relationship between light intensity and surface area.
There are unresolved assumptions about how light emission and visibility interact, particularly concerning the geometry of light propagation and the nature of light reception by the eye or telescopes.
Not quite what I am asking...anorlunda said:
FQVBSina said:
Exactly because light is emitted from all directions, only a small part reaches Earth. If only such a small portion reaches earth, what we see through our telescopes should only be that small portion of the sun in the sky. However, when observed in the telescope, we can see the entire Sun such that we can observe solar flares at the top of the sun.mfb said:
What I am trying to ask is that only such small portion of sunlight hits the Earth, we shouldn't even be able to see half of the sun facing us. We should only be able to see a small circular area on the Sun's surfacedavenn said:true
... mfb gave a better response
and as he said, you don't see the whole sun ... because there is a significant portion facing away from us we see a little over 1/2 of the suns surface
the same with the moon or even if you were a metre or so away from a spherical light globeDave
FQVBSina said:
FQVBSina said:
We receive a small portion of the light from every portion of the surface (facing us). You are mixing up portions of light vs portions of objects. You don't need to gather all of the light, just some of the light from all of the surface.FQVBSina said:
Sorry I meant to say the half sphere facing us because clearly we don't see behind a sphere. And from the half sphere we can still see top of the sun and especially any solar flares from it. But I am wondering that we shouldn't be able to even see that half entirely since only a small portion of light hits the Earth.davenn said:
That makes sense. Thank you.Dale said:
The sun is not reflecting any light at all, it is emitting light.FQVBSina said:
FQVBSina said:
The fraction reaching a telescope or an eye is even smaller by many orders of magnitude.FQVBSina said:
On a somewhat related note, It was once considered possible that Pluto was larger than it appeared to be. Unlike the Sun, which emits an equal amount of light is all directions from each point of its surface, Pluto is seen by reflected light. The argument was that if Pluto's surface was very icy and smooth, much of the Sun's light hitting it would not be reflected back in a direction where we would see it, and what we were seeing was just a highlight on that smooth surface, making it look smaller than it really was. Of course, this turned out to not be the case (in fact, Pluto turned out to smaller than original estimates when it was discovered that light we thought was just Pluto turned out to being coming from Pluto and Charon combined)mfb said:
I have to agree because the original question is still not too clear to me.mfb said:
