A man weasring glasses of focal length +1 m cannot clearly see beyond 1 m

A man is wearing spectacles of focal length +1 m. What can be the defect in the eye ?

(a) A giant refracting telescope at an observatory has an objective lens of focal length 15m. If an eyepiece of focal length 1.0cm is used, what is the angular magnification of the telescope? (b) If this telescope is used to view the moon, what is the diameter of the image of the moon formed by the objective lens? The diameter of the moon is 3.48 xx 10^(6)m , and the radius of lunar orbit is 3.8xx10^(8)m .

An astronomical refractive telescope has an objective of focal length 20 m and an eyepiece of focal length 2 cm.

An object is approaching a convex lens of focal length 0.3m with a speed of 0.01m s^(-1) . Find the magnitudes of the ratio of change of position and lateral magnification of image when the object is at a distance of 0.4m from the lens

A boy focuses Sunlight on a paper by using biconvex lens of focal length 10 cm. Such that paper can be burnt. Diameter of Sun is 1.39 xx 10^9 m and distance of Earth from Sun is 1.5 xx 10^(11) m approximately, then the diameter of image of Sun on paper will be

Two similar thin equi-convex lenses, of focal length f each, are kept coaxially in contact with each other such that the focal length of the combination is F_1 , when the space between the two lenses is filled with glycerin (which has the same refractive index ( mu = 1.5) as that of glass) then the equivalent focal length is F_2 . The ratio F_1 :F_2 will be :

An object and a screen are fixed at a distance d apart. When a lens of focal length f is moved between the object and the screen, sharp images of the object are formed on the screen for two positions of the lens. The magnifications produced at these two positions are M_(1) "and" M_(2) -

Consider a concave mirror and a convex lens (refractive index 1.5) of focal length 10 cm each separated by a distance of 50 cm in air (refractive index = 1) as shown in the Fig. An object is placed at a distance of 15 cm from the mirror. Its erect image formed by this combination has magnification M_1 . When this set up is kept in a medium of refractive index 7//6 , the magnification becomes M_2 . The magnitude ((M_2)/(M_1)) is : .