283172 Distance of \(5^{\text {th }}\) dark fringe from centre is \(4 \mathrm{~mm}\). If \(D=2 \mathrm{~m}, \lambda=600 \mathrm{~nm}\), then distance between slits is:

283173 Assertion : Distance between position of bright and dark fringe remain same in YDSE.
Reason: Fringe width \(\beta=\frac{\lambda D}{d}\).

283174 A light of wavelength \(500 \mathrm{~nm}\) is incident on a young's double slit. The distance between slits and screen is \(D=1.8 \mathrm{~m}\) and distance between slits is \(d=0.4 \mathbf{~ m m}\). If screen moves with a speed \(4 \mathrm{~m} / \mathrm{s}\), with what speed first maxima will move?

283175 InYoung's experiment fourth bright fringe produced by light of 5000 superposes on the fifth bright fringe of an unknown wavelength. The unknown wavelength is (1)

283172 Distance of \(5^{\text {th }}\) dark fringe from centre is \(4 \mathrm{~mm}\). If \(D=2 \mathrm{~m}, \lambda=600 \mathrm{~nm}\), then distance between slits is:

283173 Assertion : Distance between position of bright and dark fringe remain same in YDSE.
Reason: Fringe width \(\beta=\frac{\lambda D}{d}\).

283174 A light of wavelength \(500 \mathrm{~nm}\) is incident on a young's double slit. The distance between slits and screen is \(D=1.8 \mathrm{~m}\) and distance between slits is \(d=0.4 \mathbf{~ m m}\). If screen moves with a speed \(4 \mathrm{~m} / \mathrm{s}\), with what speed first maxima will move?

283175 InYoung's experiment fourth bright fringe produced by light of 5000 superposes on the fifth bright fringe of an unknown wavelength. The unknown wavelength is (1)

283172 Distance of \(5^{\text {th }}\) dark fringe from centre is \(4 \mathrm{~mm}\). If \(D=2 \mathrm{~m}, \lambda=600 \mathrm{~nm}\), then distance between slits is:

283173 Assertion : Distance between position of bright and dark fringe remain same in YDSE.
Reason: Fringe width \(\beta=\frac{\lambda D}{d}\).

283174 A light of wavelength \(500 \mathrm{~nm}\) is incident on a young's double slit. The distance between slits and screen is \(D=1.8 \mathrm{~m}\) and distance between slits is \(d=0.4 \mathbf{~ m m}\). If screen moves with a speed \(4 \mathrm{~m} / \mathrm{s}\), with what speed first maxima will move?

283175 InYoung's experiment fourth bright fringe produced by light of 5000 superposes on the fifth bright fringe of an unknown wavelength. The unknown wavelength is (1)

283172 Distance of \(5^{\text {th }}\) dark fringe from centre is \(4 \mathrm{~mm}\). If \(D=2 \mathrm{~m}, \lambda=600 \mathrm{~nm}\), then distance between slits is:

283173 Assertion : Distance between position of bright and dark fringe remain same in YDSE.
Reason: Fringe width \(\beta=\frac{\lambda D}{d}\).

283174 A light of wavelength \(500 \mathrm{~nm}\) is incident on a young's double slit. The distance between slits and screen is \(D=1.8 \mathrm{~m}\) and distance between slits is \(d=0.4 \mathbf{~ m m}\). If screen moves with a speed \(4 \mathrm{~m} / \mathrm{s}\), with what speed first maxima will move?

283175 InYoung's experiment fourth bright fringe produced by light of 5000 superposes on the fifth bright fringe of an unknown wavelength. The unknown wavelength is (1)