Physics
A convex lens forms an inverted image of size same as that of the object which is placed at a distance 60 cm in front of the lens.
Find —
(a) The position of image, and
(b) The focal length of the lens
Refraction Lens
106 Likes
Answer
An inverted, real and same size image of an object, is formed by a convex lens when the object is placed at 2f i.e. u = 2f1.
(a) When the object is at 2f1 in a convex lens then the image is formed at 2f2. Hence, position of the image is 60 cm behind the lens.
(b) To find the focal length of this lens, we use the relationship given below,
Object distance (u) = 2f
Given,
Object distance (u) = 60 cm
Using the two equivalent values we get,
Therefore, the focal length of the given lens is 30 cm
Answered By
39 Likes
Related Questions
An object is placed at a distance of 20 cm in front of a concave lens of focal length 20 cm. Find —
(a) the position of the image, and
(b) the magnification of the image
A concave lens forms an erect image of 1/3rd the size of the object which is placed at a distance 30 cm in front of the lens. Find:
(a) The position of the image, and
(b) The focal length of the lens.
The power of a lens is +2.0 D. Find its focal length and state what kind of lens it is?
A lens forms the image of an object placed at a distance of 45 cm from it on a screen placed at a distance 90 cm on the other side of it.
(a) Name the kind of lens.
(b) Find : (i) the focal length of lens, and (ii) the magnification of the image.