In the displacement method a conves lens...

In the displacement method a conves lens is placed in between an object and a screen. If the magnificaiton in the two position are `m_(1) and `m_(2)` (`m_(1)` gt m_(2)` ), and the distance between the two positions of the lens is x, the focal length of the lens is

Similar Questions

Explore conceptually related problems

In the displacement method , a convex lens is placed in between an object and a screen . If one of them magnification is 3 and the displacement of the lens between the two positions is 24 cm , then the focal length of the lens is :-

The magnifications produced by a convex lens for two different positions of an object are m_(1) and m_(2) respectively (m_(1) gt m_(2)) . If 'd' is the distance of separation between the two positions of the object then the focal length of the lens is

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

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

A convex lens of focal length f is placed somewhere in between an object and a screen. The distance between the object and the screen is x . If the numerical value of the magnification produced by the lens is m , then the focal lnegth oof the lens is .

The focal length of a lens is -0.4m. The lens is

In the displacement method a conves lens is placed in between an object and a screen. If the magnificaiton in the two position are `m_(1) and `m_(2)` (`m_(1)` gt m_(2)` ), and the distance between the two positions of the lens is x, the focal length of the lens is

Similar Questions

Recommended Questions