scattered or diffused, the opposite of collocated and focused
Light reflections off of a smooth surface are considered to be spectral. Light reflections off of rough surfaces are considered to be diffuse
Reflection about the y-axis.
If I felt moved to answer that question, I'd kind of need to see where point 'G' is. Was there maybe possibly by any chance some kind of a drawing or a picture near that question, in the book where you copied it from ?
depends on how much feet it is and what kind of carpet it is A good rough estimate is 5 pounds a yard. http://www.befloorwise.com
scattered or diffused, the opposite of collocated and focused
A smooth and polished surface typically produces a clear and distinct reflection of an image. The reflection occurs when light rays bounce off the surface and create a mirrored image of the object in front of it. Rough or uneven surfaces may distort or scatter the reflection, making the image less clear.
Diffuse reflection occurs when light hits an irregular surface, causing light to scatter in different directions due to the uneven surface. This type of reflection results in a blurred or dull image and is typically seen on surfaces like paper, fabric, or rough walls.
Light reflections off of a smooth surface are considered to be spectral. Light reflections off of rough surfaces are considered to be diffuse
A rough or irregular surface reflects light unevenly, causing it to scatter in different directions. This can create a diffuse reflection where the light is not reflected uniformly, unlike a smooth and polished surface that provides a clear and regular reflection. Examples include frosted glass, textured walls, or rough metal surfaces.
A reflection does not have any surface.A reflection does not have any surface.A reflection does not have any surface.A reflection does not have any surface.
Diffuse reflection
reflection
Reflection about the y-axis.
any plays
An uneven surface will give off a diffused reflection, scattering light in multiple directions. This diffuse reflection can reduce glare and create a more uniform lighting environment compared to a smooth, mirror-like surface.
reflection