A turnips sits before a thin coverging lens,outside the focal point of the lens.Teh lens is filled with a transparent gel so that it is flexible by,by squeezing its ends towards its center [as indicated in figure(a)],you can change the curvature of its front and rear sides

When you squeeze the lens,the lateral height of image.

A thin convex lens of focal length 30 cm is placed in front of a plane mirror. An object is placed at a distance x from the lens (not in between lens and mirror ) so that its final image coincides with itself. Then, the value of x is

Bottom of a glass beaker is made of a thin equi-convex lens having bottom side silver polished as shown in the figure. Water is filled in the beaker upto a height 4m. The image of poin to bject,floating at middle point of beaker at the surface of water coincides with it. Find out ther adius of curvature of the lens.Given that refractive index of glass is 3/2 and that of water is 4/3.

A point object is placed in front of a silvered plano convex lens of refractive index n radius of curvature R , so that its image is formed on itself. Then the object distance is equal to

The redius of curvature of the convex face of a plano-convex lens is 12cm and its refractive index is 1.5. a. Find the focal length of this lens. The plane surface of the lens is now silvered. b. At what distance form the lans will parallel rays incident on the convex face converge? c. Sketch the ray diagram to locate the image, when a point object is places on the axis 20cm from the lens. d. Calculate the image distance when the object is placed as in (c).

If the eye is kept very close to a coverging lens (focal length = 10 cm ) and at the optical centre of the lens and an object is kept at distance 'd' of the object from the lebs so that its image can be seen clearly by the defect free eye is : .

If the eye is kept very close to a coverging lens (focal length = 10 cm ) and at the optical centre of the lens and an object is kept at distance 'd' of the object from the lebs so that its image can be seen clearly by the defect free eye is : .

On a horizontal plane mirror, a thin equiconvex lens of glass is placed and when the space between the lens and mirror is filled with a liquid, an object held at a distance D which is 30cm vertically above the lens is found to coincide with its own image as shown in Figure. If equiconvex lens of glass has refractive index mu=1.5 and radius of curvature R=20cm then find refractive index of the liquid.

A thin biconvex lens of refractive index 3//2 and radius of curvature 50cm is placed on a reflecting convex surface of radius of curvature 100cm. A point object is placed on the principal axis of the system such that its final image coincides with itself. Now, few drops of a transparent liquid is placed between the mirror and lens such that final image of the object is at infinity. Find refractive index of the liquid used. Also, find the position of the object.

The bottom of glass beaker is made of a thin equiconvex lens having bottom side silver polished as shown in figure,. Now the water is filled in the baker upto a height of h=4m. The image of point object floating at middle point of beaker at the surface of water coincides with it. Find out the value of radius of curvature of lens. (._amu_(g)=3//2, ._amu_(w)=4//3)

An object of height 2cm is kept 2m in front of a convex lens of focal length 1m. A plane mirror is placed at 3m from the lens on its other side. Find the nature, position, and magnification of the final image that will be seen by an observer looking toward the mirror through the lens.