2. Optics instrumens Eye Eye Lup Lup Microscoope Microscoope Teropong Teropong

3. The Eye – Close-up of the Cornea

4. The Eye The normal eye focuses light and produces a sharp image The normal eye focuses light and produces a sharp image Essential parts of the eye: Essential parts of the eye: Cornea – light passes through this transparent structure Cornea – light passes through this transparent structure Aqueous Humor – clear liquid behind the cornea Aqueous Humor – clear liquid behind the cornea

5. The Eye – Parts, cont. The pupil The pupil A variable aperture A variable aperture An opening in the iris An opening in the iris The crystalline lens The crystalline lens Most of the refraction takes place at the outer surface of the eye Most of the refraction takes place at the outer surface of the eye Where the cornea is covered with a film of tears Where the cornea is covered with a film of tears

6. An intuitive way to view eye corrections Near-sighted eye is elongated, image of distant object forms in front of retina Add diverging lens, image forms on retina Far-sighted eye is short, image of close object forms behind retina Add converging lens, image forms on retina

7. The Eye – Near and Far Points The near point is the closest distance for which the lens can accommodate to focus light on the retina The near point is the closest distance for which the lens can accommodate to focus light on the retina Typically at age 10, this is about 18 cm Typically at age 10, this is about 18 cm The average value is about 25 cm The average value is about 25 cm It increases with age It increases with age Up to 50 cm or greater at age 60 Up to 50 cm or greater at age 60 The far point of the eye represents the largest distance for which the lens of the relaxed eye can focus light on the retina The far point of the eye represents the largest distance for which the lens of the relaxed eye can focus light on the retina Normal vision has a far point of infinity Normal vision has a far point of infinity

8. Nearsightedness (Myopi)= Rabu jauh Also called myopia Also called myopia The far point of the nearsighted person is not infinity and may be less than one meter The far point of the nearsighted person is not infinity and may be less than one meter The nearsighted person can focus on nearby objects but not those far away The nearsighted person can focus on nearby objects but not those far away

9. Correcting Nearsightedness A diverging lens can be used to correct the condition A diverging lens can be used to correct the condition The lens refracts the rays away from the principal axis before they enter the eye The lens refracts the rays away from the principal axis before they enter the eye This allows the rays to focus on the retina

10. Eyeglasses with concave lenses used overcome nearsightedness must have lens strength (P) = kekuatan lensa : Eyeglasses with concave lenses used overcome nearsightedness must have lens strength (P) = kekuatan lensa : Pr = Punctum Remotum of eye ( cm) = titik jauh mata

11. Farsightedness ( rabun dekat/ hypermetropia) Also called hypermetropia Also called hypermetropia The near point of the farsighted person is much farther away than that of the normal eye The near point of the farsighted person is much farther away than that of the normal eye The image focuses behind the retina The image focuses behind the retina Can usually see far away objects clearly, but not nearby objects Can usually see far away objects clearly, but not nearby objects

12. Correcting Farsightedness A converging lens placed in front of the eye can correct the condition A converging lens placed in front of the eye can correct the condition The lens refracts the incoming rays more toward the principal axis before entering the eye The lens refracts the incoming rays more toward the principal axis before entering the eye This allows the rays to converge and focus on the retina

13. Farsightedness eyes have the Punctum Proximum greater than 25 cm and the punctum remotum at unlimited. Eye glasses with convex lenses used to overcome Farsightedness must have the lens strength : Pp = Punctum Proximum = titik dekat

14. Presbyopia and Astigmatism Presbyopia (literally, “old-age vision”) is due to a reduction in accommodation ability Presbyopia (literally, “old-age vision”) is due to a reduction in accommodation ability The cornea and lens do not have sufficient focusing power to bring nearby objects into focus on the retina The cornea and lens do not have sufficient focusing power to bring nearby objects into focus on the retina Condition can be corrected with converging lenses Condition can be corrected with converging lenses In astigmatism, light from a point source produces a line image on the retina In astigmatism, light from a point source produces a line image on the retina Produced when either the cornea or the lens or both are not perfectly symmetric Produced when either the cornea or the lens or both are not perfectly symmetric Can be corrected with lenses with different curvatures in two mutually perpendicular directions Can be corrected with lenses with different curvatures in two mutually perpendicular directions

15. Diopters Optometrists and ophthalmologists usually prescribe lenses measured in diopters Optometrists and ophthalmologists usually prescribe lenses measured in diopters The power P of a lens in diopters equals the inverse of the focal length in meters The power P of a lens in diopters equals the inverse of the focal length in meters P = 1/ƒ P = 1/ƒ

16. Student Activity Anton’s retina is 2.5 cm behind the lens, which has a minimum focal length of 2.6 cm. Anton’s retina is 2.5 cm behind the lens, which has a minimum focal length of 2.6 cm. 1. What does the focal length f cl of her contact lens need to be? (a) 65 cm(c) -0.1 cm(b) -65 cm 2. What is the power P cl of the contact lens? (a) 1.5 D(c) 1000 D(b) -1.5 D 2.5 cm f eye = 2.6 cm

17. Compound Microscope A compound microscope consists of two lenses A compound microscope consists of two lenses Gives greater magnification than a single lens Gives greater magnification than a single lens The objective lens has a short focal length, The objective lens has a short focal length, ƒ o < 1 cm The eyepiece has a focal length, ƒ e of a few cm The eyepiece has a focal length, ƒ e of a few cm