2. Farsightedness. Assume that the distance between the eye lens and the retina is 1.70 cm.

2. Farsightedness. Assume that the distance between the eye lens and the retina is 1.70 cm. a. One farsighted patient has a near point of 40.0 cm. What is the focal length of their eye when an object is at their near point? How does this focal length compare to the focal length for a normal eye with the object at the commonly-used near point of 25.0 cm? b. Without using corrective lenses, the farsighted patient above tries to view an object 25 cm away from their eye, which a normal eye can see clearly. Where is the (clear) image created by the farsighted eye? Describe the image on the retina.1 c. The same farsighted patient wears thin, corrective lens placed 2 cm from their eye, allowing the patient to see clearly close objects that the normal eye sees clearly. What focal length should the corrective lens have? What is the prescription in diopters? Include the sign to describe whether the lens is converging or diverging, and explain your choice. cl. While wearing their glasses, the same farsighted patient views an object 50cm from their eye (Le. a little farther than their uncorrected far point). How far away from the eye is the image of this object created by the lens? (i.e. Where the person sees the object located while wearing their corrective lenses.)