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ZeroGravity

ZeroGravity is the term commonly used to describe the condition of apparent weightlessness experienced by objects that are in free fall relative to their surroundings. In physics, gravity itself is not zero; weightlessness occurs when the only forces acting on an object are gravity and the object is falling alongside its surroundings. In orbital flight, spacecraft and their occupants experience microgravity, characterized by very small residual accelerations caused by vibrations, tidal forces, and maneuvers. The phrases zero gravity and weightlessness are widely used, but zero gravity is not a literal state achievable on Earth.

Achieving zero gravity on Earth is possible only for limited periods or in specific setups. Parabolic flights,

In practice, long-duration microgravity is studied in space, aboard orbiting spacecraft and laboratories such as the

See also microgravity, weightlessness, orbital mechanics.

often
marketed
as
zero-G
flights,
produce
brief
intervals
of
weightlessness
during
each
ballistic
arc,
typically
lasting
about
20
to
30
seconds.
Drop
towers
provide
a
momentary
free-fall
environment
during
a
controlled
fall.
Neutral
buoyancy
facilities,
such
as
large
water
tanks,
simulate
some
aspects
of
microgravity
for
training
by
balancing
buoyant
and
gravitational
forces,
giving
participants
a
sense
of
working
in
a
weightless
environment.
International
Space
Station.
These
environments
support
experiments
across
biology,
materials
science,
fluid
physics,
combustion,
and
fundamental
physics.
Parabolic
flights
and
other
Earth-based
demonstrations
continue
to
be
used
for
education
and
research,
while
commercial
and
academic
programs
explore
microgravity
in
training,
research,
and
outreach
initiatives.