Chapter 14 Electromagnetic Energy Flashcards
examples of mechanical waves (i.e., waves that move matter)
sound waves, water waves, seismic waves
EM (electromagnetic) spectrum
a frequency continuum of waves that (a) transfers energy, (b) can be transmitted in a vacuum (aka matterless space)
waves in the EM spectrum
visible light waves
radio waves
microwaves
x-rays
infrared waves
ultraviolet light
Sir Isaac Newton, 1600s, dispersed sunlight into a rainbow of colors using __.
prisms
Electromagnetic (EM) force
the relationship of the electrostatic force to the magnetic force.
How electric fields, magnetic fields, and light interact
in a wave-like fashion, with light moving as a wave disturbance in the electric/magnetic fields.
How light moves
light moves as waves,
by oscillating
in magnetic & electric fields that are perpendicular to each other
mathematical speed of light (c)
[c is the constant for the speed of light in a vacuum]
c in a vacuum is 299 million m/s
(aka 3.00 x 108 m/s)
(going through matter can change the speed)
measurable properties of electromagnetic waves
frequency
wavelength
mathematical equation for an EM wave
constant = frequency x wavelength
[c = f x upside down Y]
Light’s “wave properties” cause it to refract
which looks like
a bending of the light or image
Light travels in a wave bundle called a
photon.
(All EM energy is transported as photons.)
Ways photons can act:
like waves (refracting, diffracting, and interfering)
& like particles (having momentum, moving in straight lines, and affecting individual atoms)
Formula for the energy of a photon
Photon’s energy =
Planck’s constant x the frequency of a photon’s EM waves.
Aspects of radio waves
They carry radio & TV signals and can follow the curvature of the earth.
They are at the low end of the EM spectrum.
They are divided into frequencies and includes the VHF band.
Produced by the acceleration of electrons by a magnetic or electric field.
Describe aspects of microwaves
They span the upper end of the radio-frequency band [e.g., UHF (ultra-high freq) for cell phones].
Produced, like radio waves, by the acceleration of electrons by a magnetic or electric field.
Can only travel in a line of sight (straight line).
Aspects of InfraRed (IR) waves
Higher frequency than microwaves.
All matter produces it (above absolute zero) because electrons are moving.
The lowest EM frequency visible to the eye.
Produced mostly by the thermal vibration of atoms and molecules.
Aspects of visible light
includes all the EM frequencies humans can see.
emitted when electrons lose energy within the atom (not by the physical movement of electrons).
Ultraviolet rays
Frequencies are beyond those of deep violet visible light.
Frequencies too high for human eye to detect.
Called “black light” because it can’t be seen.
AKA UV rays or UV radiation.
Produced like visible light waves, but with large energy changes that emit very energetic UV photons.
Aspects of XRay waves
created when high-speed electrons strike an atom and slow down rapidly.
Lost kinetic energy of that slowing is converted into high-energy xray photons.
Can penetrate matter.
Gamma Rays
at the highest frequency of the EM spectrum.
made by changes in atomic nuclei, not from colliding electrons.
have the shortest known wavelengths.
have the highest energy per photon.
the can destroy chemical bonds and change elements into a different kind.
Radioactive elements release gamma rays.
