The correct option is
B 6, 9
Convex lenses (with positive power) are used to correct hypermetropia (far-sightedness). Hence, we can estimate that the lady's near point is greater than the normal value (
25 cm).
Focal length of the correctional lens
f=1P=11.5 D=10×10015 cm=2003 cm Power of the magnifier lens
Pm=20 D Focal length of the magnifier
fm=10020=5 cm Maximum magnification is given by
m=1+Dfm Case (a) with correctional glasses
The eye with correctional glasses will behave as a normal eye. Hence
D=25 cm m=1+255=6 Case (b) without correctional glasses
For an object at the normal near point (
25 cm), the lens in the correctional glasses will form an image at her actual near point. Let the actual near point be
v cm Then using lens formula,
1f=1v−1u u=D=25 cm,
f=2003 cm ⇒v=−40 cm.
So the actual near point is at
40 cm.
Then magnification without correctional glasses
m=1+40fo=1+405=1+8=9