Chapter Three Light Vocabulary
refraction and optical illusion
Optical illusion through the refraction of light causes a distorted view of an object.
microwaves
Radio waves with the shortest wavelengths and the highest frequencies
convex lens
a lens that is thicker in the middle than the edges
concave lens
a lens that is thinner in the middle than at the edges
medium
a substance in what waves can travel
transulent
letting some light through without being completely transparent
speed of light
light traveling through a medium
iris
muscular diaphragm that controls the size of the pupil
cornea
transparent anterior portion of the outer covering of the eye
infrared waves
EM waves that have wavelengths between 700 nanometers and 1 mm
Why does an object appear to be a certain color?
It's a matter of selective absorption and reflection of the varying wavelengths of light. Our eyes and brain work together to interpret the different wavelengths of light as different colors. White light is composed of all possible wavelengths of visible light, and sunlight is very nearly white. Characteristics of various surfaces cause them to reflect or absorb certain wavelengths. The ones that are reflected to our eyes are what determine the color we perceive. To cite just a single example, if a ball is red, it reflects red light and absorbs the other colors. That's why it appears red. The issue is slightly different for a source of light, and the answer speaks to all other things we see and the colors they appear to have.
diffuse reflection
Reflection that occurs when parallel rays of light hit a rough surface and all reflect at different angles
regular reflection
Reflection that occurs when parallel rays of light hit a smooth surface and all reflect at the same angle
refraction of light
When light travels through one medium into another its speed changes
electromagnetic wave
radiation consisting of waves of energy associated with electric and magnetic fields resulting from the acceleration of an electric charge
absorption
(physics) the process in which incident radiated energy is retained without reflection or transmission on passing through a medium
Why is the grass green?
Sunlight gives off UV rays, which plants absorb to turn into energy. This energy is called ATP. In order for photosynthesis to occur, ATP must be present. Because light comprises of all the colors of the Visible Light Spectrum, or Rainbow, all colors EXCEPT green are absorbed into the chlorophyll. Green is the color reflected and transmitted back, and that is why we see green in plants. (There's a whole lot more, but that's the basics).
rainbow
an arc of colored light in the sky caused by refraction of the sun's rays by rain
scattering
an interaction of light with matter that causes light to change its energy, direction of motion, or both
incident beam
beam of light coming toward a surface
illuminated object
is an object that is lit up because light from luminous object is reflected off of it
opaque
not clear
luminous object
object that emits light, as opposed to one that reflects light
prism
A piece of glass that separates white light into colors of the spectrum.
Why is the sky blue?
The atmosphere is the mixture of gas molecules and other materials surrounding the earth. It is made mostly of the gases nitrogen (78%), and oxygen (21%). Argon gas and water (in the form of vapor, droplets and ice crystals) are the next most common things. There are also small amounts of other gases, plus many small solid particles, like dust, soot and ashes, pollen, and salt from the oceans. The blue color of the sky is due to Rayleigh scattering. As light moves through the atmosphere, most of the longer wavelengths pass straight through. Little of the red, orange and yellow light is affected by the air. However, much of the shorter wavelength light is absorbed by the gas molecules. The absorbed blue light is then radiated in different directions. It gets scattered all around the sky. Whichever direction you look, some of this scattered blue light reaches you. Since you see the blue light from everywhere overhead, the sky looks blue. As you look closer to the horizon, the sky appears much paler in color. To reach you, the scattered blue light must pass through more air. Some of it gets scattered away again in other directions. Less blue light reaches your eyes. The color of the sky near the horizon appears paler or white.
reflected beam
The beam of light that is reflected off of a surface from the incident beam
surface
a superficial aspect as opposed to the real nature of something
lens
a transparent object that refracts light waves such that they converge or diverge to create an image
transparent
allowing light to pass through; easily recognized or understood; easily seen through or detected
real image
can be projected into a screen because light passes through the image
virtual image
cannot be projected into a screen because light doesn't travel through the image
pupil
contractile aperture in the iris of the eye
radio waves
electromagnetic waves with the longest wavelengths and lowest frequencies
ultraviolet waves
electromagnetic waves with wavelengths from about 400 billionths to 10 billionths of a meter
angle of reflection
the angle between a reflected ray and a line perpendicular to the reflecting surface at the point of incidence
law of reflection
the angle of incidence is equal to the angle of reflection
angle of incidence
the angle that a line makes with a line perpendicular to the surface at the point of incidence
ROYGBV
the colors of visible light Red Orange Yellow Green Blue Violet
Wavelength
the distance (measured in the direction of propagation) between two points in the same phase in consecutive cycles of a wave
focal length
the distance between the lens and the focal point
electromagnetic spectrum
the entire frequency range of electromagnetic radiation
gamma ray waves
the highest frequency and shortest wavelength in the spectrum.
retina
the light-sensitive membrane covering the back wall of the eyeball
normal line
the line perpendicular to the surface
visible light waves
the narrow range of wavelengths in the electromagnetic spectrum that humans can see
transmission
the passing of light or other form of energy through matter
reflection
the phenomenon of a propagating wave (light or sound) being thrown back from a surface
focal point
the point at which beams of light cross after going through a lens
x-ray waves
these are waves with higher energy than electromagnetic waves and can pass many materials easily
