Physics Unit 13 Light
How are rainbows formed?
Light goes into one raindrop, dispersion happens, the light reflects off the back and comes out in different colors
increase (or decrease) in size of an image produced by an optical system compared to the true size
Magnification
used to calculate the angle at which a light ray will bend as it moves from one material into another.
Snell's law
light goes from a denser medium to a less dense medium, as the angle of incidence exceeds the critical angle, the ray reflects back to the denser medium.
Total Internal Reflection.
Why does the blue shirt look blue?
absorb all the colors of visible light except for blue, reflects blue
Name examples of concave lens.
binoculars, eye glasses, cameras, flashlights
alled a converging mirror because it brings incoming parallel rays together as shown below. It causes these rays to converge
concave mirror
converging mirror , so that it is used for many purposes
concave mirror
mirror that reflects light from it's inwardly curving surface and can produce either an upright, virtual image or an inverted, real image.
concave mirror
lens that converts parallel rays of light to convergent rays and produces a real image
concave mirrors
Real images can be produced by _________ mirrors and ______ lenses.
concave, converging
curved outwards on both sides
converging lens
lens that converts parallel rays of light to convergent rays and produces a real image
converging lens
type of lens that bends light so that parallel rays entering the lens are bent toward the focal point as they exit the lens. Or... Something that bends light so that the light rays come together to a point.
converging lens
A mirror that reflects light from it's outwardly curving surface and produces an upright, reduced, virtual image.
convex mirror
eflective surface that curves outward;point where all the light that hits it appears to focus;lways forms virtual image of a real object;always produce the same kind of image
convex mirror,
angle at which light is totally reflected back into a material.
critical angle
when the incident angle is equal to the critical angle the light goes along the boundary. when the incident angle is greater than the critical angle total internal reflection takes place.
critical angle
random scattering of light rays at different angles when a beam of light is reflected off a rough surface
diffuse reflection
each color has different frequencies so slightly different speeds so each color bends a different amount. the white light turns into different colors because of this.
dispersion
variation in the amount of refraction that occurs when different wavelengths of light cross a boundary from one transparent medium to another, resulting in the breakdown of constituent wavelengths seen as spectrum. Or... The variation in refractive index with color (a rainbow is an example of dispersion in nature).
dispersion
phenomenon of splitting of a beam of white light into its seven constituent colours when passed through a transparent medium.
dispersion of ligh
lens that causes a beam of parallel rays to diverge after refraction, as from a virtual image; a lens that has a negative focal length.
diverging lens
type of lens that bends light so that parallel rays are bent away from the focal point as they exit the lens. Or... A lens that bends light so it spreads light apart instead of coming together.
diverging lens
transmitting data, voice, and images by the passage of light through thin, transparent fibres
fiber optics
use of thin, transparent fibers to transmit light; optical fibers are used in bundles to transmit information.
fiber optics
The position of the focal point with respect to the mirror along the principal axis.
focal length
The point where incident light rays that are parallel to the principal axis converge after reflecting from the mirror.
focal point
What are examples of real image?
image seen on a cinema screen (the source being the projector),
An image that is real is always _________.
inverted
angle of incidence is equal to the angle of reflection, can be used to construct the image from any object placed in front of a mirror
law of reflection
What is a converging lens?
light converges, image is real or virtual
What is a diverging lens?
light diverges, image virtual, focal points "switched"
amount that an image is enlarged or reduced in size relative to the object.
magnification
a naturally occurring optical phenomenon in which light rays are bent to produce a displaced image of distant objects or the sky.
mirage
When light travels from one medium to another does the frequency change?
no
thin rod of high-quality glass. Very little light is absorbed by the glass. Light getting in at one end undergoes repeated total internal reflection, even when the fibre is bent, and emerges at the other end.
optical fiber
flat, smooth surface from which light is reflected by regular reflection, producing a virtual image that is the same size as the object, has the same orientation, and is the same distance form the mirror as the object.
plane mirror
mirror with a flat (planar) reflective surface; flat;glass
plane mirror
A straight line perpendicular to the surface of a mirror that divides the mirror in half.
principal axis
TRANSPARENT optical element with flat, polished surfaces that refract ligh
prism
ach colour, or wavelength, making up the white light is bent, or refracted, a different amount; the shorter wavelengths (those toward the violet end of the spectrum) are bent the most, and the longer wavelengths (those toward the red end of the spectrum) are bent the least.
prism
iece of glass or other transparent material cut with precise angles and plane faces, useful for analyzing and reflecting light.
prism
object made up of a transparent material like glass or plastic that has at least two flat surfaces that form an acute angle (less than 90 degrees). White light is comprised of all the colors of the rainbow. When white light is passed through a prism, the colors of the rainbow emerge from the prism much like in the figure here (see video). We'll learn more about why a prism spreads white light out into the colors of the rainbow.
prism
optical device used to separate white light into its component colors by dispersion.
prism
diagram that shows how light rays behave as they go through an optical system.
ray diagram
an image that can be projected onto a screen.
real image
formed as a result of the intersection of the reflected light rays , It can be received on a screen , And it is always inverted .
real image
image which is located in the plane of convergence for the light rays that originate from a given object
real image
light rays actually intersect, the image can be projected using a lens;inverted optical image that is smaller than the object and is formed by the converging of light rays
real image
one that light passes through. Focus an image of the sun on a piece of paper,
real image
produced on a screen (or some other detector) when all of the rays from a single point on an object strike a single point on the screen.
real image
projected out in front of the mirror at the place where the light focuses.
real image
bending of a light wave
refraction
bending of a wave as it crosses the boundary between two media at an angle
refraction
bending of the path of a light wave as it passes from one material into another
refraction
A reflection produced by a smooth surface in which parallel light rays are reflected in parallel.
specular reflection
Reflection that occurs off smooth surfaces; the light ray is not scattered, and the reflected image is undistorted.
specular reflection
Name examples of converging lens.
telescope, binoculars, magnifying glass, camera, microscope
Occurs when light traveling from a more optically dense to a less optically dense medium approaches the boundary greater than the critical angle and reflects back.
total internal reflection
reflection of the total amount of incident light at the boundary between two media
total internal reflection
when the light is internally reflected instead of going into the next medium. this happens when the incident angle is greater than or equal to the critical angle. it must be from a higher index to a lower index.
total internal reflection
An image that is virtual is always _______.
upright
an image that cannot be projected onto a screen.
virtual image
formed as a result of the intersection of the reflected light rays extensions , It can not be received on a screen , It is always erect ( upright ) .
virtual image
image formed of diverging light rays; it is always formed on the opposite side of the mirror from the object.
virtual image
light rays don't actually intersect, our eye just perceives them to intersect. can't be projected using a lens.
virtual image
one that the light does not pass through. Simplest example: your image in a mirror.
virtual image
optical image formed when rays of light appear to be coming from a place other than where the actual object exists; a virtual image cannot be projected on a screen. Or... It is when the image is upright, it's NOT upside down
virtual image
ormed at the position where the paths of the principal rays cross when projected backward from their paths beyond the lens
virtual image
produced when rays of light reach our eyes that appear to come from a real object, but there is in fact no object at the apparent source of the light.
virtual image
appears behind the mirror. It can't be seen except by looking into the mirror.
virtual image,
When light travels from one medium to another does the speed change?
yes
When light travels from one medium to another does the wavelength change?
yes
What are examples of virtual images?
yourself in a mirror
