A particle lies on the bottom of a tank `T` filled with water upto s height of `90 cm`. The medium above the surface of water is of `R.I = 1.2` above which there is mirror `M`. Beyond the mirror `M` the region contains air (`mu =1`). The distance of the image formed by the mirrro after reflection of the rays coming from `P` is ____ cm (w.r.t mirror).
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An object is placed at a distance of 30 cm from a concave mirror and its real image is formed at a distance of 30 cm from the mirror. The focal length of the mirror is

The image formed by a concave mirror is twice the size of the object. The focal length of the mirror is 20 cm. The distance of the object from the mirror is//are

Water is filled in a container upto a height of 5cm . There is a concave mirror of radius of curvature 40cm . A person just above the surface observes image of 'A' . The distance of image from water surface is (mu_("water")=1.33) :

Consider the situation shown in figure. Water (mu=4//3) is filled in a beaker upto a height of 10cm. A plane mirror is fixed at a height of 5 cm from the surface of water. Distance of image from the mirror after reflection from it of an object O at the bottom of the beaker is

A concave mirror of radius of curvature 60 cm is placed at the bottom of tank containing water upto a height of 20 cm. The mirror faces upwards with its axis vertical. Solar light falls normally on the surface of water and the image of the sun is formed. If ""_(a)mu_(w)=4/3 then with the observer in air, the distance of the image from the surface of water is:

Consider the situation shown in figure. Water (mu_(w) = (4)/(3)) is filled in a breaker upto a height of 10 cm. A plane mirror is fixed at a height of 5 cm from the surface of water. Distance of image from the mirror after reflection from it if an object O at the bottom of the beaker is

Consider the situation shown in figure. Water (mu_(W) = (4)/(3)) is filled in a breaker upto a height of 10 cm . A plane mirror fixed at a height of 5 cm from the surface of water. Distance of image from the mirror after reflection from it of an object O at the bottom of the beaker is