Introduction to Quantum Mechanic
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January 07, 2017 |
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Introduction to Quantum
Mechanic A
A) ARadiation
B) ALight is made of particles. AThe need for a
quantification
1) Black-Abody radiation (1860-1901)
2) Atomic Spectroscopy (1888-)
1) Compton Effect (1923).
2) Electron Diffraction Davisson and Germer (1925).
3) Young's Double Slit Experiment A
D) Louis de Broglie relation for a photon from relativity
E) A new Amathematical tool: Wave functions and
operators
F)A Measurable physical quantities and associated
operators - Correspondence principle
G) The Schrödinger AEquation (1926)
H) The Uncertainty principle
Galvanometer
Transistors
digital-logic-fundamentals
light-emitting-diode-led-principle
Semiconductor
a-c-circuits
current-electricity-2
Magnetism
Alternating-currents-notes
Photoelectric-effect-and-dual-nature
Atom-and-nuclei
Elecronic-device4
Electronic-device-1
communication-system-notes
electro-statics-1
wave-optics-2
ray-optics-2
A) ARadiation
B) ALight is made of particles. AThe need for a
quantification
1) Black-Abody radiation (1860-1901)
2) Atomic Spectroscopy (1888-)
3) Photoelectric Effect A(1887-1905)
C) Wave–particle duality
1) Compton Effect (1923).
2) Electron Diffraction Davisson and Germer (1925).
3) Young's Double Slit Experiment A
D) Louis de Broglie relation for a photon from relativity
E) A new Amathematical tool: Wave functions and
operators
F)A Measurable physical quantities and associated
operators - Correspondence principle
G) The Schrödinger AEquation (1926)
H) The Uncertainty principle
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Galvanometer
Transistors
digital-logic-fundamentals
light-emitting-diode-led-principle
Semiconductor
a-c-circuits
current-electricity-2
Magnetism
Alternating-currents-notes
Photoelectric-effect-and-dual-nature
Atom-and-nuclei
Elecronic-device4
Electronic-device-1
communication-system-notes
electro-statics-1
wave-optics-2
ray-optics-2
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