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thrust

Thrust is the force applied to a body in the opposite direction of the exhaust flow, arising from the reaction described by Newton's third law. In propulsion, thrust propels a vehicle by expelling mass or deflecting it, thereby pushing the vehicle forward.

In physics terms, thrust results from a change in momentum of the propellant. For a device enclosing

Common sources include rocket engines, jet engines (turbojets and turbofans), propellers, and ion thrusters. Thrust can

The general thrust equation is F = m_dot (v_out − v_in) + (P_out − P_amb) A_out. In many aircraft engines,

Thrust is distinct from power; the efficiency of propulsion is described by thrust-related metrics such as

a
control
volume
around
the
propulsion
system,
thrust
equals
the
net
rate
of
momentum
leaving
the
volume
plus
the
net
pressure
forces
acting
on
its
boundaries.
be
static
(produced
at
zero
forward
speed)
or
dynamic
(changing
with
speed
and
ambient
conditions).
inlet
speed
is
small
relative
to
exhaust
velocity,
making
F
≈
m_dot
v_e
+
(P_e
−
P_amb)
A_e.
In
rocketry,
where
the
exhaust
velocity
is
very
high,
F
≈
m_dot
v_e.
thrust-to-weight
ratio
and
specific
impulse.
Design
choices
balance
thrust,
efficiency,
mass,
and
operating
conditions.