explain Tyndall effect briefly
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Explanation:
The Tyndall effect is light scattering by particles in a colloid or in a very fine suspension.
Also known as Willis
Tyndall scattering, it is similar to Rayleigh scattering, in that the intensity of the scattered light is inversely proportional to the fourth power of the wavelength, so blue light is scattered much more strongly than red light. An example in everyday life is the blue colour sometimes seen in the smoke emitted by motorcycles, in particular two -stroke machines where the burnt engine oil provides these particles.
Under the Tyndall effect, the longer wavelengths are more transmitted while the shorter wavelengths are more diffusely reflected via scattering. The Tyndall effect is seen when light -scattering particulate matter is dispersed in an otherwise light -transmitting medium, when the diameter of an individual particle is the range of roughly between 40 and 900 nanometers, i,e. somewhat below or near the wavelengths of visible light (400–750 nm).
It is particularly applicable to colloidal mixtures and fine suspensions; for example, the Tyndall effect is used in nephelometers to determine the size and density of particles in aerosols and other colloidal matter .
Answer:
The phenomenon of scattering of light by the particles (collide and suspension) due to which the path of light becomes visible.