In Figure, find the total magnification after two successive reflections first ono `M_(1)` and then on `M_(2)`.

In the shown figure M_(1) and M_(2) are two concave mirrors of the same focal length 10 cm . AB and CD are their pricipal axes respectively. A point object O is kept on the line AB at a distance 15 cm from M_(1) . The distance between the mirror is 20 cm . Considering two successive reflections first on M_(1) and then on M_(2) . The distance of final image from the line AB is:

In the figure shown M_(1) and M_(2) are two spherical mirrors of focal length 20 cm each. AB and CD are their principal axes respectively which are separated by 1 cm. PQ is an object of height 2 cm and kept at distance 20 cm from M_(1) . The separation between the mirrors is 50 cm Consider two successive reflections first on M_(1) then on M_(2) . Find the size of the 2^(nd) image. Also find distances of and points P'' and Q'' of that image from the line AB . .

Find the position of the final image after three successive reflections taking the first reflection on m_(1) .

In the figure shown If the object O moves towards the palne mirror ,then the image I(which is formed after successive reflections from M_(1),M_(2) respectively will move:

In question 118, if m_(1) and m_(2) are the magnifications for two positions of the lens, then

In the figure shown a thin parallel beam of light is incident on a plane mirror m_(1) at small angle 'theta' . m_(2) is a concave mirror of focal length 'f' . After three successive reflefctions of this beam the x and y coordinates of the image is

The lateral magnification of the lens with an object located at two different position u_(1) and u_(2) are m_(1) and m_(2) , respectively. Then the focal length of the lens is

The phase between the two successive M phase is called as

Two plane mirrors intersect at origin. An object 'O' is kept at a distance R on negative y-axis as shown in the figure. The co-ordinates of images formed after three reflections will be (first reflection is is considered at m_(1) )

A convex lens is placed between an object and a screen which are at a fixed distance apart for one position of the lens. The magnification of the image obtained on the screen is m_(1) . When the lens is moved by a distance d the magnification of the image obtained on the same screen m_(2) , Find the focal length of the lens.