### Why do we only see the clouds directly infront of the moon glow from moon light?

• Surly the moon is not projecting a direct beam of light which only lights up the small area of clouds around the moon. What phenomenon is happening that only allows us to see that center focus glow and not all the clouds glowing?

Diffused light is not enough to go through the thick clouds. This happens every time with every light source. What you see comes straight to your light from the source or via reflection /diffusion. If you would move you would see the Moon through a different cloud spot.

To add to @Alchimista 's comment, the total illuminance in any solid angle is roughly constant, so the farther off-axis you go the greater view area per unit illumination, i.e. the flux density drops off.

• This is an experiment that you can do at home:

1. Put a paper fixed in front of a light bulb

2. Move your head around and see how the bright spot on the paper accompany your moves.

But, why is that? How is it that not all the paper is lighted the same?

When light travels through a translucent material some of it gets reflected back, some bounces inside of it and some goes through. As always the shortest path is the easiest, so the light coming straight "bulb-paper-eye" gets through easily (brightest spot) and as you go further from the center you are not seeing direct light anymore, but diffused light, so it gets dimmer and dimmer because to get to your eye it has to bounce in the right direction. That doesn't imply that the rest of the paper is not getting light, it is just not bouncing in your direction and the same happens with the clouds.

• The light is scattered by the particles in the clouds. These particles are relatively large, compared to the wavelength of light, and so the type of scattering is called "Mie Scattering".

Light that hits a cloud particle may be scattered in any direction, but it is much more likely to be scattered forwards than than to be scattered to the side. What this means is that around the moon the clouds appear lit up, to the side the clouds appear dark. The amount of scattering doesn't depend much on the colour of the light, so the scattered light appears the same colour as the moon (ie white)

Here is an image from hyperphysics http://hyperphysics.phy-astr.gsu.edu/hbase/atmos/blusky.html which illustrates how Mie scattering creates a white glare around the sun, or moon, and how Rayleigh scattering from air molecules causes the sky to appear blue.

Actually it is a nice place to add a nice comment. To everyone wondering what the real colour of moon is, well look at amber brown tint around the moon in the described situation (ie photo in the question). A bit of blu is removed by our sky of course but that is the most close to the real colour you can get without travelling there.

@Alchimista, are you sure with that moon color statement? Isn't phenomenon is a 22° halo? Ice crystals act like prisms refracting the light concentrically and since the bluer portions are scattered more than the redder portions the "fringe" appears "warmer"? I'd might ask this a separate question to avoid extended discussion here.

No. In this case it is just that the light is attenuated so we can see it free of over contrast. So its brown grey / ocher colour becomes evident like in the above photograph. Other phenomena are halo and corona but those are unrelated to my comment and to the photo. @try-catch-finally