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momentums

Momentum is a property of a moving object that combines its mass and velocity. In classical mechanics, it is a vector quantity, p = m v, meaning it has both magnitude and direction. Momentum characterizes motion and interacts with forces in predictable ways.

Linear momentum is defined as p = m v for a particle with constant mass. For a system

Impulse is the change in momentum caused by a force applied over time. If a force F

Conservation of momentum states that in an isolated system, where no external forces act, the total momentum

Relativistic momentum generalizes p = m v for high speeds, with p = γ m v, where γ = 1/√(1 − v^2/c^2).

Regarding terminology, the standard plural of momentum is momenta; momentums is used in some contexts but is

of
particles,
the
total
momentum
is
the
vector
sum
of
the
individual
momenta.
The
unit
is
kilogram-meter
per
second
(kg·m/s).
acts
for
a
time
Δt,
the
impulse
J
=
F
Δt,
and
Δp
=
J.
Newton's
second
law
can
be
expressed
as
F
=
dp/dt.
remains
constant.
This
principle
is
central
to
analyzing
collisions,
rocket
propulsion,
and
many
problems
in
engineering
and
physics.
The
energy–momentum
relationship
becomes
E^2
=
(p
c)^2
+
(m
c^2)^2;
massless
particles
carry
momentum
equal
to
E/c,
such
as
photons.
generally
considered
nonstandard.
The
term
momentum
also
appears
in
other
domains,
such
as
wave
momentum
and
canonical
momentum
in
Lagrangian
mechanics.