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Quantum

Quantum refers to the smallest discrete unit of a physical quantity or the description of systems in which such discreteness is essential. In physics, many properties—such as energy, angular momentum, and charge—can only take on certain allowed values called quanta. The concept arises from Planck’s work on black-body radiation and is governed by constants such as Planck’s constant, which sets the scale for quantization.

Quantum mechanics is the theory that describes the behavior of matter and energy at atomic and subatomic

Historically, the quantum era began in the early 20th century with Planck, Einstein, and Bohr, followed by

Quantum theory has evolved into quantum field theory, which treats particles as excitations of underlying quantum

Applications of quantum principles span technology and science. They underlie the operation of semiconductors and lasers,

scales.
It
encompasses
features
such
as
energy
quantization,
wave-particle
duality,
superposition,
and
entanglement.
Probabilistic
outcomes
replace
deterministic
predictions,
and
the
act
of
measurement
plays
a
fundamental
role
in
what
is
observed.
the
development
of
Schrödinger’s
wave
mechanics
and
Heisenberg’s
matrix
mechanics
in
the
1920s.
The
Heisenberg
uncertainty
principle
formalizes
limits
on
simultaneous
knowledge
of
certain
pairs
of
properties,
illustrating
fundamental
constraints
in
measurement
and
knowledge
at
small
scales.
fields.
Quantum
electrodynamics
and
quantum
chromodynamics
are
central
components,
delivering
highly
accurate
predictions
across
physics.
enable
advanced
imaging
methods
such
as
magnetic
resonance
imaging,
and
inform
quantum
chemistry.
In
information
science,
quantum
computing,
quantum
communication,
and
quantum
sensing
are
active
areas
of
research,
with
ongoing
efforts
to
achieve
scalable,
fault-tolerant
systems.