1. Light and the EM Spectrum

2. Electromagnetic Radiation EMR requires no medium to travel- can travel thru a vacuum Speed 300,000 kilometers /sec 186,000 miles /sec Consists of changing electric and magnetic fields

3. Changing electric and magnetic fields Electric field is a region where particles can be pushed or pulled. Wherever there is an electric charge there is an electric field associated w/it. A moving electric charge is part of an electric current An electric current is surrounded by a magnetic field A magnetic field is a region in which magnetic forces are present When electric field changes – so does the magnetic field.

4. EMR - Wave or Particle? Acts like a wave sometimes – ie: Polarizing Filter

5. EMR - Wave or Particle? Acts like a particle, a photon, sometimes – ie: Photoelectric Cell

6. EMS waves Long wavelength : Low Frequency & Low Energy Short wavelength : High Frequency & High Energy

7. Radio & Microwaves Longest wavelengths & lowest frequency of the EMS –Include Am, FM and Television frequencies AM – Amplitude modulation: same frequency waves just a change in the amplitude to get different sounds etc. FM – Frequency Modulation: slight changes in frequency

8. Microwave & Infrared EMR Microwave: used in microwave ovens & cellular phones Infrared: Fast Food Heat Lamps, use as a night time surveillance tool.

9. Visible Light White light is a mixture of the entire visible light spectrum

10. UV, Xray & Gamma rays UV from the Sun helps the body produce vitamin D, too much exposure can cause skin cancer Xrays: used extensively in medicine to see “into” the body Gamma Rays: used in medicine to treat cancer or destructive radiation from nuclear explosions.

11. Reflection & Mirrors When light strikes an object it is either reflected, absorbed or transmitted. –Opaque: a material that reflects or absorbs the light – can’t see through it. - wood –Transparent: The material transmits light – allows light to pass through it– glass –Translucent: allows some light to pass through – can’t see image clearly – wax paper, frosted glass.

12. Kinds of Reflections You see objects because light is reflected, bounced off of it. Law of Reflection: Angle of incidence equals the angle of reflection– –Angle coming in = angle going off Regular Reflection: reflection off smooth surface – a mirror Diffuse Reflection: Irregular or bumpy, uneven surface – wall

13. Real or Virtual? Image: a copy of an object formed by reflected or refracted light Virtual image: right side up appears to be coming from behind the mirror. Real Image: is formed when reflected light rays actually meet at a point. The image is upside down (inverted),

14. 3 Types of Mirrors Plane Mirror: a flat mirror – produces an image that is right side (virtual) up and the same size as the original object – Concave Mirror: a mirror with a surface curved inward like a “cave” or a bowl. –Light reflected comes together to meet at a Focal Point. –Can produce virtual or real images Convex Mirrors: –A mirror w/ a curved surface facing outward –Reflected rays appear to come from a focal point behind the mirror –Images formed are always Virtual Concave mirrorConvex mirror Plane mirror

15. Refraction RefractionBendRefraction of Light: Bend or change direction 1. As light rays enter a new medium the cause light to bend 2. The denser the medium – the slower the light travels Index of Refraction3. Index of Refraction: a measure of how much a medium bends the light that travels through it.

16. Prisms & Rainbows PrismsPrisms: Separates white light into its component colors. –The longer the wavelength, the less it will be bent by the prism. RainbowsRainbows- light shining thru tiny droplets of water, each droplet acts as a prism

17. Lens – Concave & Convex Lenses – a curved piece of material used to bend light –Concave lenses –Concave lenses: as light passes through, they are bent away from the center Images produced are only virtual, not real –Convex lenses –Convex lenses: cause light passing through to bend toward the focal point. The images produced depends on the position of the object Concave Lens Convex Lens

18. Color The color of the object you see is the light that is reflected from its surface. All other colors are absorbed by the object.

19. Primary & Secondary Light Colors primary colorsThe 3 colors of light that can combine to form all other colors are primary colors – a. Red, Blue, Green i. Equal Red + Equal Blue = Magenta (secondary color) ii. Equal Red + Equal Green = Yellow (secondary color) iii. Equal Green + Equal Blue = Cyan (secondary color) iv. Equal Red + Equal Green + Equal Blue = White Magenta Yellow Cyan

20. Primary + Secondary = White complementary colorsAny 2 colors that combine to form white are complementary colors Secondary color + remaining Primary Color = White Magenta + Green = White Cyan + Red = White Yellow + Blue = White Magenta Yellow Cyan

21. Pigments PigmentPigment – substance that color other materials like paints, inks, etc a. Primary Pigments are Cyan, Yellow & Magenta b. Cyan + Yellow + Magenta = Black c. Cyan + Yellow = Red d. Yellow + Magenta = Red e. Cyan + Magenta = Blue f. The primary pigments are the secondary light colors! Blue Red Green

22. Compare Lights & Pigments Three primary colors = three secondary pigments Three primary pigments = three secondary colors

23. Vision - Structure Need to know these structures & their function: Cornea : begins to focus lightCornea : begins to focus light Aqueous humor : fluid between inside of cornea & the outside of the lensAqueous humor : fluid between inside of cornea & the outside of the lens Iris : the color of the eye. A muscle that opens & closes to regulate pupil sizeIris : the color of the eye. A muscle that opens & closes to regulate pupil size Pupil : hole through which light passesPupil : hole through which light passes Lens : flexible structure that focuses image on the retinaLens : flexible structure that focuses image on the retina

24. Vision - Structure Need to know these structures & their function: Ciliary muscle: ligaments attach the lens to these, they contract & stretch the lens allowing near & far focusCiliary muscle: ligaments attach the lens to these, they contract & stretch the lens allowing near & far focus Vitreous humor: fluid inside eyeball maintains size & shape of the eyeVitreous humor: fluid inside eyeball maintains size & shape of the eye Retina: contains the rods & cones that are sensitive to lightRetina: contains the rods & cones that are sensitive to light Choroid coat: middle layer of the eyeballChoroid coat: middle layer of the eyeball Sclera: the outer “whites of the eye”Sclera: the outer “whites of the eye” Optic nerve: takes rod & cone impulse back to the occipital lobe for processingOptic nerve: takes rod & cone impulse back to the occipital lobe for processing

25. Image Processing Fovea –Fovea – The central region where images focused is the fovea. Rods – about 1 billion, sensitive to brightness, light and dark & movementRods – about 1 billion, sensitive to brightness, light and dark & movement Cones – detect color, about 3 million. 3 types of cones, sensitive to red, blue & green wavelengths of light.Cones – detect color, about 3 million. 3 types of cones, sensitive to red, blue & green wavelengths of light. All rods & cones have nerve fiber attached, these collect at the back of the eye and form the optic nerve which carries the signal back to the eye.All rods & cones have nerve fiber attached, these collect at the back of the eye and form the optic nerve which carries the signal back to the eye.