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Powerpoint Templates
A Pré-história da
Química Quântica
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Fibonacci
(c. 1170 – c. 1250)
1202
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Roger Bacon
(1214(?) - 1294)
Opus Majus 1267
Part V – Optics
Part VI – Experimental Sciences
Explanation of the rainbow
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Newton
(1643 - 1727)
1671
Coined the term spectrum
Newton sketch of it´sexperiment:
A holeA collimator lens
A dispersion prismA target to display it
A second prism to recreate white light
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Beyond the visible
Herschel
(1738 -1822)
Using a thermometer maximum
heating effect occurs beyond the red
(IR radiation).
(1800)
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Beyond the visible
Ritter
(1776 -1810)
Detected the blackening of AgCl
when placed on the side of the violet
area of the spectra (UV radiation).
(1801)
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The solar Spectrum
William H. Wollaston
(1766 -1828)
Detected dark lines in solar spectrum
(1802)
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The solar Spectrum
Fraunhofer mesures with precision
the position of 574 of the dark lines .
(1814)
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Fraunhofer’s spectroscope
(1787-1826)
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Fraunhofer’s(1821)
Diffraction Grating
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Léon Foucault
(1819-1868)
Fraunhofer D lines match Sodium
emission spectra. (1849)
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Gustav kirchhoff
(1824-1887)
1859 Spectroscopy and
Quantum Chemistry
start “Dating”
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1845 – Circuit Laws
1859 - laws of thermal radiation
“spectral radiance I was a universal function, one and
the same for all black bodies, only of wavelength and
temperature”
“For an arbitrary body radiating and emitting thermal
radiation, the ratio E / A between the emissive spectral
radiance, E, and the dimensionless absorptive ratio, A, is
one and the same for all bodies at a given temperature.
That ratio E / A is equal to the emissive spectral
radiance I of a perfect black body, a universal function
only of wavelength and temperature”
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Kirchhoff's challenged his fellow physicists to
devise a full mathematical description of the
frequency distribution of heat in the radiation
emanating from a perfectly black body.
Gustav Kirchhoff Challenge
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John Mather George F. Smoot III
Nobel
2006
COBE
2.725 ± 0.002 K
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Back to 1859= aT4
1865 Maxwell(1831-1879)
Maxwell’s equations
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1884 Boltzmann(1844-1906)
Proved Stefan Law
1879 Stefan(1835-1893)
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1893 Wien(1864-1928)
λmT = constante
Displacement law
(1896)
f(λ,T) = b ν3 exp(- a ν/T)
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Wien’s law fails for low frequency
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Planck (1894)
Harmonic oscilator under viscous damping
f(ν,T) = 8 π ν2 /c3 U(ν,T)
Comparing Planck and Wien
U(ν,T) = B ν exp(- A ν/T)
A and B universal constants
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The thermodynamic connection
Planck (1899/1900)
2ª Law dU = T dS
).
U(νννν,T) = B νννν exp(- A νννν/T)
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Lummer, Pringsheim,
Rubens and Kurlbaum
Formula fails for high wavelenghts
Rubens: spectral
intensity proportional
to temperature
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Planck (1901)
h quantum of action
K Boltzmann constant
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Wien Nobel 1911
Planck Nobel 1918 (given in 1919)
1901 Heisenberg’s
Mammy was delivering
a baby.
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1905 Einstein(1879-1955)
- Special relativity
- Matter/energy relationship
- Brownian Motion
- Photoelectric effect
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hν = hνo + Ekinetics
“Quantum of light” hν
νo threshold frequency
"I therefore take the liberty ofproposing for this hypotheticalnew atom, which is not lightbut plays an essential part inevery process of radiation, thename photon.“
-Gilbert N. Lewis, 1926
Einstein Nobel 1921
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Einstein 1917 Quantum theory of radiation
p = h ν / c Photons carry momentum
Compton 1923(1892-1962)
Compton Nobel 1927
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1924 de Broglie(1892-1987)
Wave Particle duality
Nobel 1929
Einstein 1917
p = h ν / c = h / λ Photons carry momentum
λ = h / p Particles have wave properties
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1927 Davisson-Germer
Davisson Nobel 1937
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1925 Heisenberg
(1901 - 1976)
Matrix Mechanics
Nobel 1932
1926 Schrödinger
(1887- 1961)
Wave Mechanics
Nobel 1933
1932 Von Neumann
(1903- 1957)
Operators Algebra
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1927 Fifth Solvay Conference
Electrons and Photons
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Niels Bohr with Albert
Einstein at Paul
Ehrenfest's home in
Leiden (December
1925)
“God does not play dice with the universe.” Einstein
“Who are you to tell God what to do?”Bohr
“God not only plays dice, but sometimes throws them where they cannot be seen.”Modern answer by Hawking
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Meanwhile in atomic theory
450 BC –
Democritus
All matter is made up of atoms.
Atoms are eternal and invisible
and so small that they can’t be
divided, and they entirely fill up
the space they’re in.
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1808 Dalton
New System of Chemical Philosophy
Elements are made of extremely small particles called atoms.
Atoms of a given element are identical in size, mass, and other properties; atoms of different elements differ in size, mass, and other properties.
Atoms cannot be subdivided, created, or destroyed.Atoms of different elements combine in simple whole-number ratios to form chemical compounds.
In chemical reactions, atoms are combined, separated, or rearranged
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1897 Thomson
Electron
(Nobel 1906)
1913 Moseley
Proton
1932 Chadwick
Neutron
(Nobel 1935)
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1904 plum pudding modelBy Thomson
1904 Saturnian (gravitational)
By Nagaoka
1911 Rutherford (electrostatic)
(Nobel 1908 - Chemistry)
rotating around the nucleus the electronshould radiate electromagnetic waves endingup falling on it.
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1885 Balmer Series (visible)
1906-1914 Lyman (UV)
1908 Paschen (IV)
1922 Brackett (IV)
1924 Pfund (IV)
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1913 Bohr (Nobel 1922)
Rutherford model limited to orbits whereangular momentum (mvr) is a multiple ofh/2πAn electron gains or loses energy by jumpingbetween orbits absorbing or emiting lightaccording to ∆E = h ν
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