A thin biconvex lens of focal length 6.25 cm is made of material of refractive index 1.5. It is cut into two identical pieces perpendicular to its principal axis. One of the pieces is placed in water of refractive index `4/3`. The focal power of the piece immersed in water in diopter is

A plano-convex lens is made of refractive index of 1.6. The focal length of the lens is

An equiconvex lens of refractive index 1.6 has power 4D in air. Its power in water is:

A convex lens of refractive index 1.5 has a focal length of 20 cm in air. Calculate the change in its focal length when it is immersed in water of refractive index 4/3.

A thin equiconvex lens (mu=3//2) of focal length 10cm is cut and separated and a material of refractive index 3 is filled between them. What is the focal length of the combination?

A thin lens made of a material of refractive index mu_(0) has a focal length f_(0) in air. Find the focal length of this lens if it is immersed in a liquid of refractive index mu .

A converging lens has a focal length of 20 cm in air. It is made of a material of refractive index 1.6 . If it is immersed in a liquid of refractive index 1.3 , what will be its new foacl length ?

A concavo-convex lens is made of glass of refractive index 1.5. The radii of curvature of its two surfaces are 30 cm and 50 cm. Its focal length when placed in a liquid of refractive index 1.4 is

A thin lens of focal length + 12 cm is immersed in water (mu = 1.33). What is its new focal length ?

A parallel beam of light falls successively on a thin convex lens of focal length 40 cm and then ono a thini convex lens of focal length 10cm as shown in figure. In figure, the second lens is an equiconcave lens of focal length 10cm and made of a material of refractive index 1.5. In both the cases, the second lens has an aperture equal to 1cm. Q. Now, a liquid of refractive index mu is filled to the right of the second lens in case B such that the area illuminated in both the cases is the same. Determing the refractive index of the liquid.

An equi-convex lens of focal length F in air is is cut into two halves along the plane perpendicular to the optic axis. One of the halves is placed between a fixed object and a screen separated by distance of 90 cm . Two images are formed on the screen for two different positions of the lens with magnification 2 and 1/2 respectively. Find the value of F . what would be the value of the focal length of the equiconvex lens if the lens is immersed in water ? Refractive index of the material of the lens is 1.5 and that of water is mu_w=4//3 .