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Transcription:

Chapters 31 Atomic Physics 1

Overview of Chapter 31 Early Models of the Atom The Spectrum of Atomic Hydrogen Bohr s Model of the Hydrogen Atom de Broglie Waves and the Bohr Model The Quantum Mechanical Hydrogen Atom Multi-electron atoms and the Periodic Table Atomic Radiation 2

31-1 Early Models of the Atom Electron was discovered in 1897, and was observed to be much smaller than the atom First modern model of the atom was therefore the plum pudding model Tiny electrons embedded in a mass of positive charge. 3

31-1 Early Models of the Atom Experiments were done to confirm model.. Looked at how alpha particles (helium nuclei) scattered from gold foil Found many more large-angle scatters than expected Something that could only happen if the positive charge were concentrated in a tiny volume Rather different to the plum pudding model.. 4

31-1 Early Models of the Atom This led to the solar system model of the atom electrons orbiting a small, positively charged nucleus. 5

31-2 The Spectrum of Atomic Hydrogen If we look at the light emitted by a low-pressure gas when subjected to a large electric field, we find a series of individual lines, called a line spectrum. 6

31-2 The Spectrum of Atomic Hydrogen Each atom has its own particular pattern of emission lines If white light passes through atom, it absorbs the same frequencies seen in the emission spectrum. 7

31-2 The Spectrum of Atomic Hydrogen Wavelengths in the visible spectrum of hydrogen are given by: R is the Rydberg constant: Called the Balmer series of spectral lines. 8

31-3 Bohr s Model of the Hydrogen Atom 1. Electron in a hydrogen atom moves in a circular orbit around the nucleus 2. Only certain orbits are allowed, where the angular momentum in the nth allowed orbit is 3. Radiation is emitted when an electron changes from one orbit to another, with frequency given by: 9

31-3 Bohr s Model of the Hydrogen Atom In order for an electron to move in a circle of radius r at speed v, the electrostatic force must provide the required centripetal force. Hence: Adding the angular momentum (L=mvr) constraint gives: 10

31-3 Bohr s Model of the Hydrogen Atom Solving these equations for the allowed radii gives: The quantity in parentheses is the radius of the smallest orbit: 11

31-3 Bohr s Model of the Hydrogen Atom Bohr s model gives correct predictions for any single-electron atom, when the different Coulomb force is taken into account. Here, Z is the number of protons in the nucleus: 12

31-3 Bohr s Model of the Hydrogen Atom Total mechanical energy of an electron in a Bohr orbit is the sum of its kinetic and potential energies. It can be shown that: Lowest energy is called the ground state. Most atoms at room temperature are in the ground state 13

31-3 Bohr s Model of the Hydrogen Atom If we assume that the radiation emitted from excited atoms corresponds to the energy difference between two levels: When numerical values are substituted for the constants in the parentheses, they yield Rydberg s constant 14

31-4 de Broglie Waves and the Bohr Model De Broglie proposed that the allowed orbits were those which of the electron 15

31-4 de Broglie Waves and the Bohr Model Therefore, the momentum of an electron in the nth orbit is: And the angular momentum: Exactly as Bohr stated 16

31-5 The Quantum Mechanical Hydrogen Atom The quantum mechanical description of the atom requires four numbers: 1. The principal quantum number, n, gives the energy of the electron. 2. The orbital angular momentum quantum number l: 17

31-5 The Quantum Mechanical Hydrogen Atom 3. The magnetic quantum number, which comes into play if there is a magnetic field: 4. The electron spin number, which is an intrinsic property of the electron: 18

31-5 The Quantum Mechanical Hydrogen Atom A state is defined as a particular assignment of the four quantum numbers: 19

31-6 Multi-electron Atoms and the Periodic Table Atoms with multiple electrons are more complex, and there are no simple formulas for the energy levels. They are still characterized by the same quantum numbers. 20

31-6 Multi-electron Atoms and the Periodic Table Pauli exclusion principle states that only one electron may be in each quantum states: 1.Only one electron at a time may have a particular set of quantum numbers, n, l, ml and m s. 2. Once a particular state is occupied, other electrons are excluded from that state. Therefore, if electrons are added to an atom, they must go into higher and higher energy states. 21

31-6 Multi-electron Atoms and the Periodic Table Each energy level can accommodate a certain number of electrons, depending on n. 22

31-6 Multi-electron Atoms and the Periodic Table The electron arrangements are given here for the first eight elements of the periodic table: 23

31-6 Multi-electron Atoms and the Periodic Table A shorthand notation has been devised to describe the configuration of electrons in a particular atom. Diagram shows how to describe a single energy level. 24

31-6 Multi-electron Atoms and the Periodic Table Once every occupied level is described in this way, we have a complete description of the electron configuration of the atom. 25

31-7 Atomic Radiation X-rays are emitted when highly energetic electrons strike a metal target. If the electrons have enough energy, they can knock out a K- shell (n = 1) electron in a multielectron atom 26

31-7 Atomic Radiation X-rays are used for medical imaging, among other applications. 27

31-7 Atomic Radiation The energy of a K-shell electron is given by: 28

31-7 Atomic Radiation The word laser is an acronym for light amplification by the stimulated emission of radiation. Spontaneous emission occurs when an electron in an excited state drops to a lower state, emitting a photon in the process. The photons are emitted in random directions. 29

31-7 Atomic Radiation Stimulated emission occurs when the atom is bombarded with photons of the emission wavelength; this stimulates the transition to occur. 30

31-7 Atomic Radiation Stimulated emission is in the same direction as the incident photon, and the photons have the same phase. Since one incoming photon produces two outgoing photons, the light intensity is amplified. 31

31-7 Atomic Radiation The coherence of laser light is critical in the manufacture of holograms, as information is contained in the interference pattern. 32

31-7 Atomic Radiation Fluorescence occurs when electrons emit photons of various frequencies when returning to the ground state. In fluorescence, ultraviolet light excites atoms into metastable states. They then decay in two or more steps, emitting visible light. 33

31-7 Atomic Radiation This is an example of a fluorescent compound, green fluorescent protein (GFP). 34

35 Answer: 5.6 pj

36 Answer: 369.7 nm

Answer: a) 5.697 nm Answer: b) 218 ev 37

Answer: a) n=4 Answer: b) Decrease Answer: c) 0.544 ev 38

39 Answer: 1.32 nm

Answer: a) 6 Answer: b) 6 40

41 Answer: 66.9 KeV

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