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6.

Two light rays having the same wavelength in vacuum are in phase initially. Then, the first ray travels a path L1 through a medium of refractive index  $\mu_{1}$ while the second ray travels a path L2 through a medium of refractive index $\mu_{2}$. The two waves are then combined to observe interference. The phase difference between the two waves is 


A) $\frac{2\pi}{\lambda}\left(\frac{L_{1}}{\mu_{1}}-\frac{L_{2}}{\mu_{2}}\right)$

B) $\frac{2\pi}{\lambda}(L_{2}-L_{1})$

C) $\frac{2\pi}{\lambda}(\mu_{2}L_{1}-\mu_{1}L_{2})$

D) $\frac{2\pi}{\lambda}(\mu_{1}L_{1}-\mu_{2}L_{2})$



7.

Two convex lenses of power 2D and 5D are separated by a distance 1/3 m . The power of optical system  formed is 


A) +2D

B) -2D

C) -3D

D) +3D



8.

The  refractive index for a prism is given as  $\mu=\cot\frac{A}{2}$ . Then , angle of minimum  deviation in terms of angle of prism is 


A) $90^{0}-A$

B) 2A

C) $180^{0}-A$

D) $180^{0}-2A$



9.

A compound microscope having magnifying power 35 with its eye-piece of focal length 10 cm. Assumes that the final image is at least distance of distinct vision then the magnification product by the objective is 


A) -4

B) 5

C) 10

D) -10



10.

A ray of light is incident on a plane mirror at an angle of 30°. At what angle with the horizontal must plane mirror be placed so that the reflected ray becomes vertically upwards?


A) $40^{0}$

B) $20^{0}$

C) $30^{0}$

D) $60^{0}$



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