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alavanca

Alavanca is the Portuguese term for a lever, a rigid bar that pivots around a fulcrum to multiply force or distance. As a simple machine, it allows a user to apply a smaller input force to move a heavier load or to move the load farther than the input, depending on the arrangement of the fulcrum, effort, and load. The concept is foundational in physics and engineering and has been used since ancient times to perform work more efficiently.

There are three classical classes of levers. In a first-class lever, the fulcrum lies between the effort

The mechanical advantage of a lever equals the ratio of the distances from the fulcrum: MA = effort

Applications of alavancas include tools and devices in construction, industry, medicine, and daily life, such as

and
the
load,
as
in
a
seesaw
or
a
crowbar.
In
a
second-class
lever,
the
load
is
between
the
fulcrum
and
the
effort,
exemplified
by
a
wheelbarrow.
In
a
third-class
lever,
the
effort
is
between
the
fulcrum
and
the
load,
as
with
many
human
limb
actions
like
lifting
with
the
forearm.
Each
class
offers
a
different
trade-off
between
force
amplification
and
travel
distance.
arm
/
load
arm.
In
ideal
conditions,
work
input
matches
work
output,
though
real
systems
experience
friction
and
weight
that
reduce
efficiency.
Levers
are
valued
for
their
simplicity,
reliability,
and
versatility
across
many
contexts.
crowbars,
doors,
pliers,
and
various
measurement
instruments.
The
concept
also
extends
metaphorically
to
strategies
that
increase
leverage
in
processes
and
negotiations.