Calculate focal length of a spherical mirror from the following abservations. Object distance `u=(20.1pm0.2)cm` and image distance `v=(20.1pm0.2)cm`

Calculate focal length of a spherical mirror from the following observation: object distance u=(10 pm 0.1)cm and image distance v=(10pm0.1)cm .

Calculate focal length of a spherical mirror from the following observations : object distance, u = (50.1 +- 0.5)cm and image distance , upsilon = (20.1 +- 0.2)cm.

In u-v method to find focal length of a concave mirror, if object distance is found to be 10.0 cm and image distance was also found to be 10.0 cm , then find maximum permissible error in (f).

A spherical mirror forms an image of magnification3. The object distance, if focal length of mirror is 24cm, may be

The radius of curvature of a spherical mirror is 20 cm. What is its focal length?

The distance of an object from a concave spherical mirror is equal to the focal length of the mirror. Then the image.

The focal length of a convex mirror is 40 cm. A point source of light is kept at distance 40 cm from the mirror. Find the distance of image from the mirror.

To find index error e distance between object needle and pole of the concave mirror is 20 cm . The separation between the indices of object needle and mirror was observed to be 20.2 cm in some observation, the observed image distance is 20.2 cm and the object distance is 30.2 cm find (a) the index error e. (b) focal length of the mirror f .

An object of height 5 cm is placed 20 cm away from a convex mirror. Its image is formed at a distance of 12 cm behind the mirror. Calculate the focal length of the mirror using mirror formula. Also draw a scale diagram to locate the image. From the diagram, find out the length of the image formed.

Assume that a certain spherical mirror has a focal length of -10.0 cm. Locate and describe the image for object distances of (a) 25.0 cm (b) 10.0 cm (c) 5.0 cm.