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Lecture 6 - physics.udel.edu
Lecture 6 - physics.udel.edu

... L6.P6 The excited state can be both triplet or singlet state since the electrons are in different states. We can constrict both symmetric and antisymmetric spatial wave functions. Symmetric spatial wave function will go with singlet spin state (parahelium) and antisymmetric one will be triplet (ort ...
Atomic Structure and Chemical Bonding
Atomic Structure and Chemical Bonding

... Ans2. Lyman series: When excited electrons in hydrogen atoms fall from higher energy levels to first energy level, the series of lines observed are called Lyman series. They are observed in ultraviolet region. Lyman = R(1/12 - 1/n2), n = 2, 3, 4, 5, ......... Balmer series: When excited electrons in ...
research project #1 - Soudan Underground Laboratory
research project #1 - Soudan Underground Laboratory

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... emit continuous (pseudo-)black body radiation (because atoms are close to each other), but low density (low pressure) gasses emit sharp and discrete lines when “exited” by e.g. a electrical discharge because atoms are far enough that they get “excited and relax” (nearly) independent of each other ea ...
Electrons
Electrons

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Atomic Theory The Atom
Atomic Theory The Atom

o Atomic Number = Protons = Electrons o Mass – Atomic Number
o Atomic Number = Protons = Electrons o Mass – Atomic Number

... http://chemistry.tutorvista.com/nuclear-chemistry/properties-of-subatomic-particles.html ...
electron scattering (2)
electron scattering (2)

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... • Particles of half-integral spin are often referred to as Fermi particles or fermions, such as protons, electrons and neutrons. They have wave functions that are antisymmetric to an exchange of any pair of them.  A  12 [ a (1) b (2)  a (2) b (1)] • Particles of 0 or an integral spin are refe ...
ELECTROMAGNETIC EMISSION OF ATOMIC ELECTRONS
ELECTROMAGNETIC EMISSION OF ATOMIC ELECTRONS

... J. Exptl. Theoret. Phys. (U.S.S.R.) 45, 1133-1135 (October, 1963) Emission of atomic electrons during (3 decay', a second order effect with respect to electromagnetic interaction, is considered. Calculations for (3 decay of s35 show that the main contribution is from electron emission of the magneti ...
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... an atom of an element whose atomic number is 8. Atomic Number = # of protons # protons = # electrons = 8 Use the orbital filling chart to place the 8 electrons in their proper orbitals. Remember, the s orbital can only hold 2 electrons and the 3 p orbitals can hold 2 electrons each for a total o ...
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STRUCTURE OF AN ATOM

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Electrons Circulating a Nucleus

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Bohr vs. Correct Model of Atom

... The Bohr model is complete nonsense. Electrons do not circle the nucleus in little planetlike orbits. The assumptions injected into the Bohr model have no basis in physical reality. BUT the model does get some of the numbers right for SIMPLE atoms… ...
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... from excited-state atoms emitting a photon and falling down to a lower quantum-number ...
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Quantum Mechanics
Quantum Mechanics

... (The model of an atom that you were taught in high-school is a approximation). The electrons don't orbit like planets; they form blurred clouds of probabilities around the nucleus. Protons and neutrons? They're each made of three quarks, each with its own 'flavor' and one of three 'colors'. Lets not ...
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Fall 2006 Problem Set #4 Due Date: Thursday
Fall 2006 Problem Set #4 Due Date: Thursday

... 7 An electron emerges normally from a 7-mm-thick Lucite slab (density 1.19 g cm-3) with an energy of 1.2 MeV. What was its energy when it entered the slab? 8. Consider two particles: a 1.2 MeV proton and a 30.5 MeV alpha particle. (a) Calculate the stopping powers (-dE/dx) of water for both particle ...
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Electron



The electron is a subatomic particle, symbol e− or β−, with a negative elementary electric charge. Electrons belong to the first generation of the lepton particle family, and are generally thought to be elementary particles because they have no known components or substructure. The electron has a mass that is approximately 1/1836 that of the proton. Quantum mechanical properties of the electron include an intrinsic angular momentum (spin) of a half-integer value in units of ħ, which means that it is a fermion. Being fermions, no two electrons can occupy the same quantum state, in accordance with the Pauli exclusion principle. Like all matter, electrons have properties of both particles and waves, and so can collide with other particles and can be diffracted like light. The wave properties of electrons are easier to observe with experiments than those of other particles like neutrons and protons because electrons have a lower mass and hence a higher De Broglie wavelength for typical energies.Many physical phenomena involve electrons in an essential role, such as electricity, magnetism, and thermal conductivity, and they also participate in gravitational, electromagnetic and weak interactions. An electron generates an electric field surrounding it. An electron moving relative to an observer generates a magnetic field. External magnetic fields deflect an electron. Electrons radiate or absorb energy in the form of photons when accelerated. Laboratory instruments are capable of containing and observing individual electrons as well as electron plasma using electromagnetic fields, whereas dedicated telescopes can detect electron plasma in outer space. Electrons have many applications, including electronics, welding, cathode ray tubes, electron microscopes, radiation therapy, lasers, gaseous ionization detectors and particle accelerators.Interactions involving electrons and other subatomic particles are of interest in fields such as chemistry and nuclear physics. The Coulomb force interaction between positive protons inside atomic nuclei and negative electrons composes atoms. Ionization or changes in the proportions of particles changes the binding energy of the system. The exchange or sharing of the electrons between two or more atoms is the main cause of chemical bonding. British natural philosopher Richard Laming first hypothesized the concept of an indivisible quantity of electric charge to explain the chemical properties of atoms in 1838; Irish physicist George Johnstone Stoney named this charge 'electron' in 1891, and J. J. Thomson and his team of British physicists identified it as a particle in 1897. Electrons can also participate in nuclear reactions, such as nucleosynthesis in stars, where they are known as beta particles. Electrons may be created through beta decay of radioactive isotopes and in high-energy collisions, for instance when cosmic rays enter the atmosphere. The antiparticle of the electron is called the positron; it is identical to the electron except that it carries electrical and other charges of the opposite sign. When an electron collides with a positron, both particles may be totally annihilated, producing gamma ray photons.
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