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kernfysische

Kernfysische, or nuclear physics, is the branch of physics that studies the properties, structure, and reactions of atomic nuclei. It investigates how protons and neutrons form nuclei, the forces that bind them, and the outcomes of nuclear processes such as decays and reactions.

The field combines experimental and theoretical work. Experimental methods include nuclear spectroscopy, scattering experiments with accelerated

Historically, kernfysische emerged in the early 20th century with discoveries related to radioactivity and the nucleus,

Key concepts include binding energy, half-life, decay modes (alpha, beta, gamma), nuclear reactions, cross sections, isotopes,

Applications span energy generation in nuclear reactors, medical uses such as radiopharmaceuticals and radiation therapy, industrial

Kernfysische differs from high-energy particle physics by focusing on atomic nuclei and emergent phenomena at relatively

particles,
and
measurements
of
radioactive
decay
and
reaction
cross
sections.
Theoretical
approaches
develop
models
of
nuclear
structure,
such
as
the
shell
model
and
mean-field
theories,
and
describe
nuclear
reactions
using
quantum
many-body
techniques
and
reaction
theory.
reinforced
by
Rutherford’s
scattering
experiments
and
Chadwick’s
identification
of
the
neutron.
The
discovery
of
nuclear
fission
in
1938
led
to
rapid
advancements
in
energy
production
and
weapon
development,
shaping
scientific
and
political
landscapes
for
decades.
and
nucleosynthesis
in
stars.
Subfields
encompass
nuclear
structure,
nuclear
reactions,
and
nuclear
astrophysics,
each
addressing
different
aspects
of
how
nuclei
are
arranged,
how
they
interact,
and
how
they
contribute
to
cosmic
processes.
radiography,
and
security-related
technologies.
The
field
also
emphasizes
safety,
radiation
protection,
and
regulatory
considerations
to
manage
proliferation
risks
and
environmental
impact.
low
energies,
often
involving
large
accelerator
facilities
and
specialized
detectors.