1. Senses: Vision Ch. 17-2

2. Accessory Structures of Eye Eyelids Eyelashes Eyebrows Lacrimal apparatus Extrinsic eye muscles

3. Accessory Structures of Eye Eyelids – palpebrae – Functions: Shade eyes during sleep Protect eyes from light Protect eyes from foreign objects Spread lubrication over eyeballs – upper eyelid is more moveable – levator palpebrae superioris muscle – Where eyelids meet is called commissure – lateral and medial – Lacrimal caruncle – reddish bump in medial commissure that secretes oil and sweat – causes “sleep” in your eyes

4. Infections Sty – infection in oil gland of eyelash follicle Chalazion – infection in tarsal glands of eyelid – Tarsal glands secrete fluid onto eye for lubrication

5. Accessory Structures of Eye Lacrimal apparatus – Produces and drains lacrimal fluid or tears Eye muscles

6. Anatomy of the Eyeball 2.5 cm in diameter 3 anatomical layers – Fibrous tunic – Vascular tunic – Retina

7. Tunic Layers Outer layer – fibrous – Cornea – transparent, focuses light rays – Sclera – white of the eye – Optic nerve – transmits info to brain Middle layer – vascular – Choroid coat – contains blood vessels – Ciliary body – holds the lens in place – Lens – focusing – Aqueous humor – fluid surrounding lens – Pupil – opening for light to enter

8. Tunic Layers Inner layer – Retina – visual receptor cells – Vitreous humor – fluid supports internal structures

9. Eye

10. Structures of Eyeball

11. Retina Made of cells that are light receptors – photoreceptors Rods and cones – Rods – black and white – Cones - color Color blindness – Lack of cones

12. Colorblindness A genetic trait that affects boys more than girls. The location of the gene is on the X chromosome

13. Image Formation Seeing is like taking a picture The object must be focused on a “film” – retina The correct amount of light must be present – pupil Light bends - refraction

14. Refraction When light bends as it moves between two mediums – air and water Images on the retina are upside-down and have right- to-left reversal

15. Image Formation Process Light hits the cornea and is bent Light leaves the cornea and is bent again Light enters the lens where it is focused on the retina So why don’t we see everything upside-down? – Very early on the brain “learns” how to coordinate the images and make them correct

16. Accommodation Most of the focusing is done by the cornea 25% must be done by the lens Our lens is convex on both sides in order to produce clear images The lens will increase its curvature in order to focus all images exactly

17. Animations http://www.bbc.co.uk/science/humanbody/b ody/factfiles/sight/sight_animation.shtml http://www.bbc.co.uk/science/humanbody/b ody/factfiles/sight/sight_animation.shtml http://www.biologymad.com/resources/eye.s wf http://www.biologymad.com/resources/eye.s wf

18. Abnormalities and Changes Presbyopia – lens loses elasticity with age – Around age 40 the lens can’t focus near images and people need glasses Normal eye – emmetropic – can reflect images perfectly of objects 20 ft away Myopia - near-sightedness – Eyeball is too long for the focusing power of the lens or lens is thicker than normal Hyperopia – far-sightedness – Eyeball is too short for the focusing power of the lens or lens is thinner than normal

19. Abnormalities