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It should be I0/2
In Young type double slit experiment, two phase coherent spherical waves are created by passing a plane wave (e.g. laser light)
to provide sufficient diffraction.
By splitting what is originally a single beam of light.
A red slit.
It should be I0/2
In Young type double slit experiment, two phase coherent spherical waves are created by passing a plane wave (e.g. laser light)
to provide sufficient diffraction.
Born's rule predicts that interference patterns from three or more slits is equivalent to combining the effects of several double slit experiments. This rule was validated in an experiment done at the University of Waterloo in 2010.
By splitting what is originally a single beam of light.
Youngg.
yes,because in fresnel biprism the fringe width can be increased so that the dark and bright fringes can be seen clearly by naked eyes..but there is no such problem in fresnel biprism.. in young's double slit experiment, the pattern is the superposition of interference and diffraction. but in fresnel biprism it is purely interference pattern.
A red slit.
You have to correct the question as,Why are two independent sources of light not used to illuminate the two slits in Young's double slit experiment?We need coherent sources. But two independent sources would emit waves with varying phase difference which makes waves non coherent.
The equation is: nλ=d(x/l) where: n is Order of maxima λ is wavelength d is slit separation x is fringe separation l is distance from screen to double slit
There has to be a slit somewhere to insert the air bladder through, THat slit is then closed with the laces.
I think the farthest color next to white is red