365013 A medium shows relation between \({i}\) and \({r}\) as shown. If speed of light in the medium is \({(n c)}\) then value of \({n}\) is

365014 Find the time taken by a monochromatic light to cross a transparent slab of width \({2 m}\) and \(R.I. = \sqrt 2 \) as shown in figure

365015 The refractive index of glass is 1.5 . The speed of light in glass is

365016 A ray of light passes through four transparent media with refractive indices \({n_1},{n_2},{n_3}\) and \({n_4}\) as shown.
The surface of all media are parallel. If the emergent ray \(DE\) is parallel to incident ray \(AB\) then

365017 Monochromatic light is refracted from air into glass of refractive index \(\mu\). The ratio of the wavelength of incident and refracted waves is:

365013 A medium shows relation between \({i}\) and \({r}\) as shown. If speed of light in the medium is \({(n c)}\) then value of \({n}\) is

365014 Find the time taken by a monochromatic light to cross a transparent slab of width \({2 m}\) and \(R.I. = \sqrt 2 \) as shown in figure

365015 The refractive index of glass is 1.5 . The speed of light in glass is

365016 A ray of light passes through four transparent media with refractive indices \({n_1},{n_2},{n_3}\) and \({n_4}\) as shown.
The surface of all media are parallel. If the emergent ray \(DE\) is parallel to incident ray \(AB\) then

365017 Monochromatic light is refracted from air into glass of refractive index \(\mu\). The ratio of the wavelength of incident and refracted waves is:

365013 A medium shows relation between \({i}\) and \({r}\) as shown. If speed of light in the medium is \({(n c)}\) then value of \({n}\) is

365014 Find the time taken by a monochromatic light to cross a transparent slab of width \({2 m}\) and \(R.I. = \sqrt 2 \) as shown in figure

365015 The refractive index of glass is 1.5 . The speed of light in glass is

365016 A ray of light passes through four transparent media with refractive indices \({n_1},{n_2},{n_3}\) and \({n_4}\) as shown.
The surface of all media are parallel. If the emergent ray \(DE\) is parallel to incident ray \(AB\) then

365017 Monochromatic light is refracted from air into glass of refractive index \(\mu\). The ratio of the wavelength of incident and refracted waves is:

365013 A medium shows relation between \({i}\) and \({r}\) as shown. If speed of light in the medium is \({(n c)}\) then value of \({n}\) is

365014 Find the time taken by a monochromatic light to cross a transparent slab of width \({2 m}\) and \(R.I. = \sqrt 2 \) as shown in figure

365015 The refractive index of glass is 1.5 . The speed of light in glass is

365016 A ray of light passes through four transparent media with refractive indices \({n_1},{n_2},{n_3}\) and \({n_4}\) as shown.
The surface of all media are parallel. If the emergent ray \(DE\) is parallel to incident ray \(AB\) then

365017 Monochromatic light is refracted from air into glass of refractive index \(\mu\). The ratio of the wavelength of incident and refracted waves is:

365013 A medium shows relation between \({i}\) and \({r}\) as shown. If speed of light in the medium is \({(n c)}\) then value of \({n}\) is

365014 Find the time taken by a monochromatic light to cross a transparent slab of width \({2 m}\) and \(R.I. = \sqrt 2 \) as shown in figure

365015 The refractive index of glass is 1.5 . The speed of light in glass is

365016 A ray of light passes through four transparent media with refractive indices \({n_1},{n_2},{n_3}\) and \({n_4}\) as shown.
The surface of all media are parallel. If the emergent ray \(DE\) is parallel to incident ray \(AB\) then

365017 Monochromatic light is refracted from air into glass of refractive index \(\mu\). The ratio of the wavelength of incident and refracted waves is: