Home

PlateTectonics

Platetectonics, commonly written as plate tectonics, is the scientific theory that explains the large-scale movement of Earth's lithospheric plates. The outer shell of the planet consists of several rigid plates that ride atop the partially molten asthenosphere. These plates interact at their boundaries, producing most of Earth's seismic and volcanic activity. Major plates include the Pacific, North American, Eurasian, African, Antarctic, and Indo-Australian plates, along with numerous smaller plates such as the Cocos, Nazca, and Caribbean plates.

Plate boundaries are classified as divergent, where plates move apart; convergent, where they move toward one

The theory integrates evidence from seafloor spreading, paleomagnetism, earthquake distributions, and hotspot tracks. Mechanisms driving plate

Historically, the idea built on Alfred Wegener’s continental drift proposal in the early 20th century and gained

another;
and
transform,
where
they
slide
past
each
other
horizontally.
Divergent
boundaries
create
new
lithosphere
at
mid-ocean
ridges;
convergent
boundaries
can
form
mountain
belts,
volcanic
arcs,
and
subduction
zones;
transform
boundaries
produce
significant
earthquakes
along
faults.
motion
include
mantle
convection,
slab
pull,
and
ridge
push.
The
theory
explains
the
supercontinent
cycle
and
patterns
of
volcanism,
mountain
building,
and
crustal
recycling
over
geological
time.
broad
acceptance
in
the
1960s
with
supporting
geophysical
data.
Plate
tectonics
remains
a
unifying
framework
for
understanding
Earth’s
geology
and
its
dynamic
processes.