Refraction takes place at a convex spherical boundary separating air-glass medium. For the image to be real, the object distance `(mu_(g) = 3//2)`
Note Object lying in the glass.

Radius of curvature of a concave spherical surface separating air-glass medium is R. A point object is placed on the principal axis in the glass (m_(g) = 1.5) . For the image to be real seen by observer in air, distance of the object from P should be

Show that for refraction at a concave spherical surface (separating glass-air medium), the distance of the object should be greater than three times the radius of curvature of the refracting surface for the image to be real.

A convex spherical refracting surfaces separates two media glass and air (mu_g=1.5). If the image is to be real, at what minimum distance u should the object be placed in air if R is the radius of curvature

A point object is above the principal axis in the concave side of a spherical interface separating medium 1 from medium 2. I f the object is in medium 1 and mu_(1) gt mu_(2) , determine the position of the image by ray tracing.

Where should an object be placed in front of a convex lens to get a real to get real image of the size of the object ?

A convex lens of focal length 30 cm produces 5 times magnified real image of an object. What is the object distance?

In Figure, a point object O is placed in air. A spherical boundary separates two media. Ab is the principall axis. The refractive index above AB is 1.6 and below AB is 2.0. The separation between the images formed due to refraction at a the spherical surface is (assume the radius of curvature (R) to be 1 unit)

Where should an object be placed so that a real and inverted image of the same size as the object is obtained using a convex lens ?

Obtain an expression for refraction at a single convex spherical surface separating the two media having refractive indices mu_(1) (rarer medium) and mu_(2) (denser medium) i.e., a relation between u, v, mu_(1),mu_(2) and R.

Identify the statements are True of False. a. The equation (mu_(2))/(v)-(mu_(1))/(u)=(mu_(12)-mu_(1))/(R) is applicabel to a plane surface for R=oo . h. In the above equation, mu_(1) is medium in which the object is placed and mu_(2) is the medium in which the image is formed. c. In the figure shown, the real image of object O is formed at a distance 5R in the medium. d. In figure, the image of an object O place on the center face of the sphere is formed at infinity,. e. In fig , the image of an object O placed on the opposite face of the sphere is foremd at infinity.