Deck 8: Waves and Water Dynamics

A)1.
B)2.
C)3.
D)4.
E)5.

A)1.
B)2.
C)3.
D)4.
E)5.

A)1.
B)2.
C)3.
D)4.
E)5.

A)1.
B)2.
C)3.
D)4.
E)5.

A)doldrums.
B)horse latitudes.
C)polar regions.
D)trade winds.
E)westerlies.

A)wave height/wavelength.
B)wave height/wave period.
C)wavelength/wave height.
D)wavelength/2.
E)wavelength/20.

A)water depth.
B)wave frequency.
C)wave height.
D)wave period.
E)wavelength.

A)gravity waves.
B)plunging breakers.
C)spilling breakers.
D)surf.
E)swells.

A)capillary waves.
B)rouge waves.
C)smaller waves.
D)swells.
E)tsunamis.

A)frequency.
B)period.
C)wave height.
D)wavelength.
E)wave steepness.

A)decreases and steepness decreases.
B)decreases and wavelength increases.
C)increases and frequency decreases.
D)increases and wavelength decreases
E)increases and wavelength remains the same.

A)the fetch.
B)wave height.
C)wavelength.
D)½ of wavelength.
E)1/20 of wavelength.

A)capillary waves.
B)constructive waves.
C)surf.
D)swell.
E)wind waves.

A)at a density boundary within the ocean.
B)at the boundary between the atmosphere and the ocean.
C)at the boundary between the ocean and the seafloor.
D)close to shore as it moves into shallow water.
E)only as a result of tidal activity.

A)a method of shoreline erosion control.
B)a type of wave-cut platform.
C)the circular pattern made by water particles when a wave passes.
D)the distance between the trough of a wave and the still water level.
E)the distance over which wind blows without interruption.

A)earthquakes.
B)high-pressure systems.
C)landslides.
D)low-pressure systems.
E)thunderstorms

A)wave height divided by frequency.
B)wave height divided by period.
C)wavelength divided by fetch.
D)wavelength divided by frequency.
E)wavelength divided by period.

A)water depth.
B)wave frequency.
C)wave height.
D)wave period.
E)wavelength.

A)near shore wind-generated waves.
B)surf.
C)tides.
D)tsunamis.
E)All of the above are examples of shallow-water waves.

A)crest.
B)frequency.
C)height.
D)period.
E)trough.

A)distance from shore < wavelength.
B)steepness = 1:7.
C)water depth = wave height.
D)water depth = wavelength/20.
E)wavelength < wave height.

A)dominant restoring force.
B)force that creates them.
C)rate at which they travel.
D)wave dispersion.
E)wave refraction pattern they create.

A)capillary waves.
B)longitudinal waves.
C)refracted waves.
D)orbital waves.
E)transverse waves.

A)wave height.
B)wave height/wavelength.
C)wavelength.
D)wavelength/wave period.
E)wave period.

A)fetch.
B)fetch and wind speed.
C)fetch,wind duration,and wind speed.
D)wind duration.
E)wind duration and wind speed.

A)capillary wave.
B)deep-water wave.
C)reflected wave.
D)refracted wave
E)shallow water wave.

A)constructive interference.
B)destructive interference.
C)wave diffraction.
D)wave reflection.
E)wave refraction.

A)constructive interference.
B)destructive interference.
C)wave diffraction.
D)wave reflection.
E)wave refraction

A)gravity waves
B)plunging breakers
C)spilling breakers
D)surf
E)swells

A)sea,surf,swell
B)sea,swell,surf
C)surf,swell,sea
D)surf,sea,swell
E)swell,sea,surf

A)a large deep-water wave.
B)a storm surge.
C)an intense storm.
D)constructive wave interference.
E)tectonic activity on the seafloor.

A)in areas where wind belts converge.
B)In coastal areas where the ocean depth rapidly decreases.
C)in upwelling zones.
D)only in the southern ocean below 60ºS latitude.
E)where storm waves move against strong surface currents.