Deck 2: Plate Tectonics and the Ocean Floor

A)The geographic pole and the magnetic pole are always the same.
B)The geographic pole wobbles,but stays near the magnetic pole.
C)The geographic poles have reversed themselves periodically through geologic time.
D)The location of the magnetic pole is unrelated to the location of the geographic pole.
E)The magnetic pole wobbles,but stays near the geographic pole.

A)Earth's geologic history.
B)latitude.
C)longitude.
D)presence or absence of glacial debris.
E)plants and animals that live in an area.

A)age of selected continental rocks.
B)apparent polar wandering.
C)location of coral reef fossils.
D)seafloor magnetic pattern.
E)shape of continental margins.

A)entire earth had polar conditions at the time the plants were living.
B)plants lived near the poles,but land masses have drifted to current locations.
C)plants probably were tolerant of both tropical and polar conditions.
D)plants were distributed to current locations by ancient glacial ice sheets.
E)poles were at the equator at times in the geologic past.

A)contours at around 2000 meters in depth.
B)current shorelines.
C)edge of the continental shelf.
D)edges of the deep sea floor.
E)oceanic trenches in subduction zones.

A)indicate the relative age of the sediments.
B)provide evidence for plate movement.
C)suggest ancient climate characteristics.
D)support the idea that land masses were joined.
E)all of the above.

A)apparent polar wandering.
B)fossils in marine sediments.
C)glacial debris at various locations.
D)the location of ancient coral reefs.
E)the magnetic pattern on the seafloor.

A)age of seafloor.
B)apparent polar wandering.
C)magnetic reversals found in continental rocks.
D)match of rocks from distant continents.
E)sediment analysis from different areas of the seafloor.

A)crest of the mid-ocean ridge
B)deep sea trenches
C)deep focus earthquakes
D)island arcs
E)offset of the mid-ocean ridge

A)rift valleys.
B)subduction zones.
C)submarine canyons.
D)transform faults.
E)turbidity currents.

A)decreasing thickness of the lithosphere.
B)increasing density of oceanic basalts.
C)increases in sediment accumulations.
D)polar wandering.
E)thermal contraction of hot asthenosphere.

A)convergent boundary (continent-continent).
B)convergent boundary (continent-oceanic).
C)convergent boundary (oceanic-oceanic).
D)divergent boundary.
E)transform fault boundary.

A)being subducted beneath the North American plate.
B)being subducted beneath Japan.
C)being thrust over the North American plate.
D)diving under Japan.
E)moving over a hot spot.

A)The lithosphere is composed of outer mantle material.
B)The lithosphere is composed of igneous rock.
C)The lithosphere is composed of metamorphic rock.
D)The lithosphere is composed of the crust and the topmost portion of the outer mantle.
E)The lithosphere is composed of the inner portion of the mantle and the outer core.

A)The asthenosphere is composed of continental and oceanic plates.
B)The asthenosphere is composed of outer mantle material.
C)The asthenosphere is composed of the crust and a portion of the outer mantle.
D)The asthenosphere is composed of the inner portion of the mantle and the outer core.
E)The asthenosphere is composed only of crust.

A)andesitic volcanoes
B)fracture zones
C)hot spots
D)mid-ocean ridges
E)volcanic island arcs

A)decreases in proportion to the distance.
B)is unrelated to the distance from the ridge.
C)increases in proportion to the distance.
D)randomly varies.
E)remains the same.

A)continental drift.
B)density.
C)isostasy.
D)ophiolites.
E)paleomagnetism.

A)andesitic volcanoes
B)fracture zones
C)hot spots
D)mid-ocean ridges
E)volcanic island arcs

A)not related to the location of oceanic ridges.
B)parallel to and symmetric about ocean ridges.
C)parallel to,but not symmetric about ocean ridges.
D)perpendicular to and symmetric about ocean ridges.
E)perpendicular to,but not symmetric about ocean ridges.