A normal human cye can see an object making an angle of `1.8^(@)` at the eye. What is the

approximate height of object which can be seen by an eye placed at a distance of 1 m from the object.

Assuming that a person of normal sight can red print to such distance that the letters subtend and angle of 5 at his eye, find is the height of the letters that he can read at a distance of 12 metres.

What happens to the image distance in the eye when we increase the distance of an object from the eye ?

Assuming that a person of normal sight can read print to such distance that the letters subtend an angle of 5’ at his eye, find the height of the letters that he can read at a distance of 12 metres.

A person suffering from defective vision can see objects clearly only beyond 100 cm from the eye. Find the power of lens required so that he can see clearly the object placed at a distance of distinct vision (D = 25cm)

Find the length which at a distance of 5280 m will subtend an angle of 1' at the eye.

An eye can distinguish between two points of an object if they are separated by more than 0.22 mm when the object is placed at 25 cm from the eye. The object is now seen by a compound microscope having a 20 D objective and 10 D eyepiece separated by a distance of 20 cm. The final image is formed at 25 cm from the eye. What is the minimum separation between two points of the object which can now be distinguished?

Man can see objects equally clear from various distances due to

By mistake, an eye surgeon puts a concave lens in place of the lens in the eye after a cataract operation. Will the patient be able to see clearly any object placed at any distance?

A convex lens produces a real image m times the size of the object. What will be the distance of the object from the lens ?

A magnified image of real object is to be obtained on a large screen 1 m from it. This can be achieved by