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atommodel

Atommodel is a general term used to describe the set of theoretical frameworks that explain the structure and behavior of atoms. It encompasses historical and contemporary models developed to account for observations in physics and chemistry. The term does not denote a single theory but a family of models that have evolved with experimental data and computational methods.

Historically, ideas about atomic structure began with Dalton’s concept of indivisible atoms, progressed to Thomson’s plum

In contemporary use, atommodel often refers to the quantum mechanical description. The nucleus contains protons and

Applications of atommodels span chemistry, physics, and materials science. They underpin predictions of chemical bonding, interpretation

Limitations include that all models are approximations with domains of validity. Relativistic and many-body effects can

pudding
model,
and
then
to
Rutherford’s
nuclear
model
revealed
by
the
gold
foil
experiment.
Niels
Bohr
introduced
quantized
electron
orbits
to
explain
spectral
lines,
a
view
later
superseded
by
the
quantum
mechanical
model,
in
which
electrons
are
described
by
wavefunctions
and
probability
densities
rather
than
fixed
paths.
neutrons,
while
electrons
occupy
orbitals
defined
by
complex
wavefunctions.
Quantum
numbers,
electron
spin,
and
electron
correlation
determine
atomic
properties
and
behavior.
While
practical
models
may
simplify
interactions,
the
underlying
framework
relies
on
quantum
theory
and,
for
precise
calculations,
quantum
electrodynamics.
of
spectroscopy,
and
the
design
of
computational
methods
such
as
density
functional
theory
and
molecular
dynamics
simulations.
They
also
play
a
key
role
in
education
and
in
enabling
simulations
of
larger
systems.
be
significant
for
heavy
elements
or
high-energy
processes,
requiring
more
advanced
formulations.
Overall,
atommodel
denotes
a
family
of
conceptual
tools
rather
than
a
single,
fixed
theory.