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Ger Lester

The document outlines key contributions to quantum mechanics by various scientists. Louis de Broglie proposed that matter exhibits wave properties, while Davisson and Germer demonstrated electron diffraction patterns. Heisenberg introduced the uncertainty principle, and Schrodinger described electrons as standing waves around a nucleus.

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lucaswife25
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7 views1 page

Ger Lester

The document outlines key contributions to quantum mechanics by various scientists. Louis de Broglie proposed that matter exhibits wave properties, while Davisson and Germer demonstrated electron diffraction patterns. Heisenberg introduced the uncertainty principle, and Schrodinger described electrons as standing waves around a nucleus.

Uploaded by

lucaswife25
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as DOCX, PDF, TXT or read online on Scribd
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hsjajsjdjdjjdjdjdjdj CONTRIBUTION SCIENTIFIC PROOFS

PROPONENTS
Louis de Broglibzbjxxne Matter Waves According to De Broglie all
matter could be viewed as
having wave properties. All
particles and even humans have
a wavelength that is related to
the momentum of the particles.
Clinton Davisson and Lester Diffraction Pattern The experiment set-up for the
Germer experiment is confined within a
vacuum chamber, thus the
deflection and scattering of
electrons by the medium are
prevented. The electrons
formed a diffraction pattern.
Werner Karl Heisenberg Uncertainty Principle The exact position of a wave
cannot be measured because a
wave is spread out. One cannot
specify the position and
momentum of spread-out
electron.
Erwin Schrodinger Standing Wave The electron might be a
standing wave around a
nucleus. A standing wave is like
a string stretched between two
points and plucked, like a guitar
string.

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