283233 If fringes width, \(\lambda=5.89 \times 10^{-5} \mathrm{~cm}\) is \(0.431 \mathrm{~mm}\) and shift of white central fringe on introducing a mica sheet in one path is \(1.89 \mathrm{~mm}\). Thickness of the mica sheet will be
\((\mu=1.59)\)

283234 In double slit experiment, the distance between two slits is \(0.6 \mathrm{~mm}\) and these are illuminated with light of wavelength \(4800 \AA\). The angular width of first dark fringe on the screen distant \(120 \mathrm{~cm}\) from slits will be:

283235 In Young's double slit experiment, the aperture screen distance is \(2 \mathrm{~m}\). The slit width is \(1 \mathrm{~mm}\). Light of \(600 \mathrm{~nm}\) is used. If a thin plate of glass \((\mu=1.5\) ) of thickness \(0.06 \mathrm{~mm}\) is placed over one of the slits, then there will be a lateral displacement of the fringes by :

283236 In Young's double slit experiment, the slit width and the distance of slits from the screen both are doubled. The fringe width :

283233 If fringes width, \(\lambda=5.89 \times 10^{-5} \mathrm{~cm}\) is \(0.431 \mathrm{~mm}\) and shift of white central fringe on introducing a mica sheet in one path is \(1.89 \mathrm{~mm}\). Thickness of the mica sheet will be
\((\mu=1.59)\)

283234 In double slit experiment, the distance between two slits is \(0.6 \mathrm{~mm}\) and these are illuminated with light of wavelength \(4800 \AA\). The angular width of first dark fringe on the screen distant \(120 \mathrm{~cm}\) from slits will be:

283235 In Young's double slit experiment, the aperture screen distance is \(2 \mathrm{~m}\). The slit width is \(1 \mathrm{~mm}\). Light of \(600 \mathrm{~nm}\) is used. If a thin plate of glass \((\mu=1.5\) ) of thickness \(0.06 \mathrm{~mm}\) is placed over one of the slits, then there will be a lateral displacement of the fringes by :

283236 In Young's double slit experiment, the slit width and the distance of slits from the screen both are doubled. The fringe width :

283233 If fringes width, \(\lambda=5.89 \times 10^{-5} \mathrm{~cm}\) is \(0.431 \mathrm{~mm}\) and shift of white central fringe on introducing a mica sheet in one path is \(1.89 \mathrm{~mm}\). Thickness of the mica sheet will be
\((\mu=1.59)\)

283234 In double slit experiment, the distance between two slits is \(0.6 \mathrm{~mm}\) and these are illuminated with light of wavelength \(4800 \AA\). The angular width of first dark fringe on the screen distant \(120 \mathrm{~cm}\) from slits will be:

283235 In Young's double slit experiment, the aperture screen distance is \(2 \mathrm{~m}\). The slit width is \(1 \mathrm{~mm}\). Light of \(600 \mathrm{~nm}\) is used. If a thin plate of glass \((\mu=1.5\) ) of thickness \(0.06 \mathrm{~mm}\) is placed over one of the slits, then there will be a lateral displacement of the fringes by :

283236 In Young's double slit experiment, the slit width and the distance of slits from the screen both are doubled. The fringe width :

283233 If fringes width, \(\lambda=5.89 \times 10^{-5} \mathrm{~cm}\) is \(0.431 \mathrm{~mm}\) and shift of white central fringe on introducing a mica sheet in one path is \(1.89 \mathrm{~mm}\). Thickness of the mica sheet will be
\((\mu=1.59)\)

283234 In double slit experiment, the distance between two slits is \(0.6 \mathrm{~mm}\) and these are illuminated with light of wavelength \(4800 \AA\). The angular width of first dark fringe on the screen distant \(120 \mathrm{~cm}\) from slits will be:

283235 In Young's double slit experiment, the aperture screen distance is \(2 \mathrm{~m}\). The slit width is \(1 \mathrm{~mm}\). Light of \(600 \mathrm{~nm}\) is used. If a thin plate of glass \((\mu=1.5\) ) of thickness \(0.06 \mathrm{~mm}\) is placed over one of the slits, then there will be a lateral displacement of the fringes by :

283236 In Young's double slit experiment, the slit width and the distance of slits from the screen both are doubled. The fringe width :