| 31. | The Rayleigh scattering ( note spelling, everyone ) makes distant objects bluer, and yellow is complementary to blue.
|
| 32. | This simplest case is explained by Rayleigh scattering-and to understand that, you have to get into the math.
|
| 33. | Rayleigh scattering is already strong enough that outer space doesn't contribute much to the color of the sky.
|
| 34. | This is known as Rayleigh scattering.
|
| 35. | Rayleigh scattering and Mie scattering dominate what they see-just as they do for us down here on earth.
|
| 36. | Why wouldn't it, since Rayleigh scattering would favor that end of the spectrum when sunlight passes through more air?
|
| 37. | The Rayleigh scattering effect is therefore increased, removing virtually all blue light from the direct path to the observer.
|
| 38. | Another type of structural color results from the incoherent scattering of light, also known as Tyndall or Rayleigh scattering.
|
| 39. | Despite the strong wavelength dependence of Rayleigh scattering, its effect on sky glow for real light sources is small.
|
| 40. | The optical depth of the atmosphere can be divided into several components, ascribed to Rayleigh scattering, aerosols, and gaseous absorption.
|
