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accelerationrelated

Acceleration-related refers to phenomena, quantities, and notions that involve acceleration—the rate at which velocity changes over time. In physics, acceleration is a vector: it has magnitude and direction, denoted a, and its SI unit is meters per second squared (m/s^2). Instantaneous acceleration is the derivative of velocity with respect to time, a = dv/dt, while average acceleration over a time interval is Δv/Δt.

In kinematics, constant acceleration leads to simple equations of motion: v = v0 + a t and s =

In relativity, the distinction between coordinate acceleration and proper acceleration is important; proper acceleration is what

Applications and measurement: accelerations are measured with accelerometers in devices such as smartphones, vehicles, and aircraft.

s0
+
v0
t
+
1/2
a
t^2,
with
the
relation
v^2
=
v0^2
+
2
a
(s
−
s0).
Acceleration
can
be
decomposed
into
components
along
the
path:
tangential
acceleration
a_t
=
dv/dt,
and
a
centripetal
(or
radial)
acceleration
a_c
=
v^2/r
toward
the
center
of
curvature
in
circular
motion.
an
accelerometer
measures
and
is
invariant,
while
coordinate
acceleration
depends
on
the
reference
frame.
Gravitational
acceleration,
often
denoted
g,
is
the
acceleration
due
to
gravity
near
a
massive
body;
near
Earth
it
is
about
9.81
m/s^2
downward.
High
accelerations
relate
to
G-forces
and
can
impact
safety
and
comfort;
jerk
(the
rate
of
change
of
acceleration)
influences
ride
quality
and
structural
design.
Acceleration
concepts
also
appear
in
biomechanics,
sports
science,
and
engineering
analyses.