plate boundaries

Created by

Anika

Cards (28)

types of plate margins
divergent ( constructive )
convergent ( destructive)
conservative ( transform faults )
oceanic meets continental plate - destructive  
oceanic plate is denser so it slides beneath the continental plate into the mantle and melts.
this causes fold mountains.
the friction causes deep earthquakes in the benioff zone
volcanic eruptions are generated as magma pushes up through the continental plate.
continental plate meets continental plate - destructive  
a collision margin occurs. This is because both plates have the same density + are less dense than the asthenosphere so neither plates are subducted.
although they collide + sediments are crumpled and forced upwards forming fold mountains.
no volcanoes + shallow focus earthquakes
oceanic plate meets oceanic plate - destructive  
1 plate is subducted beneath the other. deep ocean trenches form and the subducted plate melts creating magma which rises up the benioff zone forming underwater volcanoes.
this forms island arcs
island arcs 
volcanoes rise above sea level and form seperate island volcanos.
constructive plate margin  
2 plates are diverging apart leading to a new crust forming oceanic ridges (if in ocean) or rift valleys ( if on land).
breaks in mid-ocean ridges are called transform vaults. regular volcanic eruptions also create submarine volcanoes.
rift valleys  
the crust stretches + breaks into sets of parallel faults. this land then collapses forming rift valleys.
conservative plate  
2 plates slide past eachother resulting in a break in the crust between them as they move. this is a fault or a transform fault on a larger scale.
tectonically active
the 2 plates may stick when moving past eachother building pressure causing an earthquake ( shallow focus)
convection currents  
movements of a fluid caused by a temp or density difference in a material.
continental crusts  
outermost layer of lithosphere making up continents + continental shells.
oceanic crust  
denser layer (crustal) which makes up portions of tectonic plates in deep oceans.
lithosphere  
rocky rigid outer layer
mid oceanic ridge 
the area where 2 oceanic plates diverge at the point where rising convention currents within the mantle spread sideways forcing plates apart making a rift.
rift valley  
lowland regin which forms where tectonic plates move apart / rift
sea floor spreading  
occurs at mid ocean ridge. new oceanic crust is formed through volcanic activity + then slowly moves away from the ridge
slab pull  
a force from denser oceanic plates sinking beneth less dense continental plates along convergent boundaries + subduction zones.
subduction  
process by which one edge of the lithosphere is forced bellow the edge of another
subduction zone  
1 plate slides underneath another at a converging plate boundary
mantle convection  
heat produced by decay of radio active elements in the earths core heats the lower mantle creating convection currents. it moves in circles in the athenosphere so the plates move.
the lithosphere is broken up into several major + several minor parts (tectonic plates)
tectonic plate  
large, irregularly shaped slabs of solid rock which move slowly. the study of these plates is called the tectonic theory.
structure of the earth
crust : oceanic and contineted
listosphere
mantle : asthenosphere
outer core
inner core
inner core  
solid due to pressure from other layers (compacted molecules). made of iron + nickel.
outer core 
less pressure so is liquid. There is shrinking due to cooling.
mantle
3000-1000’. cooler closer to crust. the mantle near the outer core is the mesosphere which is compressed. the part closer to the crust is the athenosphere.
the listophere is divided into the oceanic and continental crust. the continental crust is less dense. when the oceanic crust forms sea floor spreading occurs. this is when the oceanic crust pushes the tectonic plates apart.
hazard profile
physical characteristic of an event
hazard risk equation
risk = hazard x vulnerability
_______________
capacity to cope