Deck 12: Electromagnetic Waves

A) the electric field remaining constant because light does not carry charge.
B) the electric field undulating to the right or left as the wave travels to the right or left.
C) the electric field undulating up and down as the wave travels to the right or left.
D) no electric field at all.

A) 299 million miles per hour.
B) 299 million kilometers per hour.
C) 299 million meters per second.
D) 299 thousand meters per second.

A) 30,000,000,000 meters
B) 3,000,000 meters
C) 3.0 meters
D) 0.33 meters

A) Radio circuit
B) Antenna circuit
C) Tank circuit
D) Inductance circuit

A) East and west
B) North and south
C) Up and down
D) It does not oscillate: this situation is impossible.

A) AMplification
B) Antenna Modulation
C) Antenna Modification
D) Amplitude Modulation

A) FM is higher frequency.
B) FM electronics produce better sound reproduction.
C) FM has a larger bandwidth.
D) FM antennas need not be as tall as AM antennas.

A) 100 kHz
B) 200 kHz
C) 100 MHz
D) 200 MHz

A) an electromagnetic wave must have a magnetic field that changes with time to produce its electric field.
B) electromagnetic waves always contain both electric charges and magnetic poles, and magnetic poles are accompanied by magnetic fields.
C) electromagnetic waves contain moving electric charges and charges produce magnetic fields when they move.
D) while waves consisting only of electric fields are common and travels indefinitely through space, they are known as "electric waves," not "electromagnetic waves."

A) amount of electric charge it pushes up and down its antenna.
B) amplitude of the radio wave it produces.
C) strength of the electric and magnetic fields in the radio wave it produces.
D) frequency of the radio wave it produces.

A) switches energy stored between electric in the capacitor and magnetic in the resistor.
B) switches energy stored between electric in the inductor and magnetic in the capacitor.
C) switches energy stored between electric in the capacitor and magnetic in the inductor.
D) switches energy stored between electric in the resistor and magnetic in the inductor.

A) the charge sloshes back and forth in the tank circuit at a certain frequency and the station being tuned in to must be very near that frequency.
B) the capacitor dimensions must be the same size as the signal wavelength.
C) the magnetic field in the inductor must be the same size as that of the signal.
D) the electric field in the capacitor must be the same size as that of the radio signal.

A) There will never be a movie named "Visible Light".
B) Radio waves have less energy and travel slower than visible light.
C) Radio waves have less energy and travel faster than visible light.
D) Radio waves travel at the same speed as visible light.

A) both travel at the same speed in a vacuum.
B) both have wavelengths longer than ultraviolet light.
C) A and B
D) both have wavelengths shorter than X - Rays

A) an electromagnetic wave must have fields that change with time to produce each other.
B) electromagnetic waves are mainly electric.
C) electromagnetic waves are mainly magnetic.
D) there needs to be a charge somewhere in order to have an electric field.

A) tall buildings
B) driving over pronounced hills
C) fog and rain
D) being inside a metal room

A) electric charge only.
B) electric charge or changing magnetic fields.
C) changing magnetic fields only.
D) electric charge or any magnetic field.

A) electric current only.
B) electric current or any electric field.
C) changing electric fields only.
D) electric current or changing magnetic fields.

A) 1 micron to 100 microns.
B) 1 millimeter to 1 meter.
C) 1 micrometer to 1 millimeter.
D) 1 meter to 1000 meters.

A) shorter wavelengths than visible light
B) comparable wavelengths to visible light
C) longer wavelengths than visible light
D) no wavelength at all

A) lower frequencies than visible light
B) comparable frequencies to visible light
C) higher frequencies than visible light
D) no frequency at all

A) prevents electric charge from accumulating on the window.
B) protects the window from splatters that may occur when food inside the oven boils.
C) reflects microwaves and keeps them inside the oven.
D) prevents the glass from breaking in response to the rapid heating of its inner surface and the thermal stresses that result.

A) nothing significant happens.
B) only the metal will spark and then melt.
C) the metal will melt and the CD will spark.
D) only the CD becomes hot enough to soften and sparks dance about its surface..

A) the dehydrated egg is too dry to have a temperature. Only foods containing water or oil can actually become hot.
B) the dehydrated egg reflects the microwaves while the normal egg does not.
C) microwaves transfer heat to food principally through its water molecules.
D) the dehydrated egg is much less dense than a normal egg and doesn't conduct heat well.

A) higher frequencies and shorter wavelengths.
B) higher frequencies and longer wavelengths.
C) lower frequencies and shorter wavelengths.
D) lower frequencies and longer wavelengths.

A) light travels faster than microwaves.
B) the wavelength of visible light is about the same size as the holes.
C) the wavelength of microwaves is about the same size as the holes.
D) the screen acts like a resistor, absorbing the microwaves and not reflecting them.

A) greater than visible light.
B) less than visible light.
C) equal to visible light.
D) 55 miles per hour; it's still the law.

A) juvenile behavior.
B) cyclotron motion.
C) cycling motion.
D) motion at constant velocity.

A) higher frequencies and shorter wavelengths.
B) higher frequencies and longer wavelengths.
C) lower frequencies and shorter wavelengths.
D) lower frequencies and longer wavelengths.

A) anything with wavelengths longer than microwaves.
B) anything with wavelength about the same size as the holes.
C) ultraviolet and X-ray.
D) all radio and X-ray.