As the position of an object `(u)` reflected from a concave mirrorr is varies, the position of the image `(v)` also varies. By letting the `u` changes from `0` to `+oo` the graph between `v` versus `u` will be

As the position of an object (u) reflected from a concave mirror is varied, the position of the image (v) also varies. By latting the u changes from 0 to + oo the graph between v versus u will be

The image of an object is formed at infinite distance from a concave mirror. The position of the object is _______.

The graph between u and v for a convex mirrorr is

An object is placed at a distance u from a concave mirror and its real image is received on a screen placed at a distance of v from the mirror. If f is the focal length of the mirror, then the graph between 1/v versus 1/u is

For a concave mirrorr, if real image is formed the graph between (1)/(u) and (1)/(v) is of the form

For a concave mirrorr, if virtual image is formed, the graph between m and u is of the form

The graph between (1)/(v) and (1)/(u) for a concave mirror looks like.

A real inverted image in a concave mirror is represented by ( u , v , f are corrdinates)

In an optics experiment, with the position of the object fixed, a student varies the position of a convex lens and for each position, the screen is adjustment to get a clear image of the object. A graph between the object distance u and image distance v from the lens, is plotted using the same scale for the axes. A straight line passing through origin and making an angle of 45^@ with the x-axis meets the experimental curve at P . The coordinate of P will be.