Encyclopedia of Physical Science and Technology, Volume 10Robert Allen Meyers Academic Press, 1987 - Engineering |
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Page 266
... electron in the larger atom is further from the nucleus than the 3s electron in sodium , and hence it is easier to remove . Within a row or period , ionization en- ergy increases with atomic number , as the in- creasing unshielded ...
... electron in the larger atom is further from the nucleus than the 3s electron in sodium , and hence it is easier to remove . Within a row or period , ionization en- ergy increases with atomic number , as the in- creasing unshielded ...
Page 267
... electron affinity . Fig- ure 11 reveals that a plot of electron affinities as a function of atomic number is somewhat more complicated than a graph of ionization energies , but the results are again interpretable in terms of electron ...
... electron affinity . Fig- ure 11 reveals that a plot of electron affinities as a function of atomic number is somewhat more complicated than a graph of ionization energies , but the results are again interpretable in terms of electron ...
Page 449
... electron from one of the occupied orbitals without disturbing the remaining electrons . This is called the " frozen orbital approximation " ( FOA ) . This process creates a hole in the mani- fold of the occupied orbitals and we call the ...
... electron from one of the occupied orbitals without disturbing the remaining electrons . This is called the " frozen orbital approximation " ( FOA ) . This process creates a hole in the mani- fold of the occupied orbitals and we call the ...
Contents
Executive Advisory Board ii Petroleum Refining | 281 |
Editorial Advisory Board v James H Gary | 304 |
Crystallographic Aspects | 319 |
Copyright | |
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absorption accelerator acid acritarchs alkenes alkyl atmosphere atoms beam bond carbon cation charge chemical chiral chromatography coherent color complex compounds constant crown ethers crystal density diffusion dinoflagellate dislocation effect elec electric field electron elements enantiomers energy equation ergy example excited formation frequency function halide heat hydrocracking hydrogen increases interaction ions ketones kinetic lattice layer light liquid macrocyclic magnetic field material ment metal molecular molecules nucleophilic occur ocean operation optical orbitals organic palynology palynomorphs particles Pascal petroleum phase Photochemistry physical plane planetary plasma plasticizer polar pollen polymer potential pressure properties proton quantum radar radiation reaction region result rotation sample satellites sensitivity shown in Fig solution solvent spectra spectroscopy spectrum strain structure subroutine surface symmetry techniques temperature thermal tion transformation transition triplet tron usually vector velocity voltage wave wavelength