On a rainy day, sunrays, which are polychromatic(with all
the seven colours), fall on water droplets at a certain incident angle adn
refract with certain other refractive angle because water is denser than air. Since
the line of incidence of the rays may not be collinear to the drop's diameter,
the angle of refraction, however, is different for differeSince clouds contain tiny water droplets, why are rainbows not permanently present? not colours of the
rays in order that each colour catches up with the other at the opposite side
of the droplet (remember the frequency of a given colour is invariable
irrespective of the medium and the velocity of all colours is same in a given
medium).
In other words, a polychromatic ray gets dispersed into
seven colours of the visible light as the light beam is refracted into the body
of the droplet. The colours, thus dispersed undergo total internal reflection
on the opposite inner side of the droplet and reach the eye to enable us feel
the virtual image of the rainbow.(In fact, the mechanism of appearance of the
rainbow is more complex than this and there is a cooperative phenomenon that
includes interference in space and time.)
However the extent of the resolution of the seven colours in
the droplet depends greatly in the extent of the (path) length the rays cover
in the droplet. Consider the case of weven sprinters of varied sppeds covering
s ahorter (say 100 mts) and a longer track (say 400 mts). In a shorter track
the ralative gap, after the run is less whereas ina longer track it is more.
No comments:
Post a Comment