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200 10$aMission and money $eunderstanding the university /$fBurton A. Weisbrod, Jeffrey P. Ballou, Evelyn D. Asch
205   $a1st ed.
210  1$aCambridge :$cCambridge University Press,$d2008.
215   $a1 online resource (xv, 339 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
311 08$a0-521-73574-2 
311 08$a0-521-51510-6 
320   $aIncludes bibliographical references and index.
327   $g1$tAn Introduction to the Higher Education Industry$g1 --$g2$tThe Higher Education Business and the Business of Higher Education -- Now and Then$g9 --$g3$tIs Higher Education Becoming Increasingly Competitive?$g39 --$g4$tThe Two-Good Framework: Revenue, Mission, and Why Colleges Do What They Do$g58 --$g5$tTuition, Price Discrimination, and Financial Aid$g77 --$g6$tThe Place of Donations in Funding the Higher Education Industry$g102 --$g7$tEndowments and Their Management: Financing the Mission$g130 --$g8$tGenerating Revenue from Research and Patents$g149 --$g9$tOther Ways to Generate Revenue -- Wherever It May Be Found: Lobbying, the World Market, and Distance Education$g162 --$g10$tAdvertising, Branding, and Reputation$g175 --$g11$tAre Public and Nonprofit Schools "Businesslike"? Cost-Consciousness and the Choice between Higher Cost and Lower Cost Faculty$g196 --$g12$tNot Quite an Ivory Tower: Schools Compete by Collaborating$g206 --$g13$tIntercollegiate Athletics: Money or Mission?$g218 --$g14$tMission or Money: What Do Colleges and Universities Want from Their Athletic Coaches and Presidents?$g251 --$g15$tConcluding Remarks: What Are the Public Policy Issues?$g278.
330   $aMission and Money goes beyond the common focus on elite universities and examines the entire higher education industry, including the rapidly growing for-profit schools. The sector includes research universities, four-year colleges, two-year schools, and non-degree-granting career academies. Many institutions pursue mission-related activities that are often unprofitable and engage in profitable revenue raising activities to finance them. This book contains a good deal of original research on schools' revenue sources from tuition, donations, research, patents, endowments, and other activities. It considers lobbying, distance education, and the world market, as well as advertising, branding, and reputation. The pursuit of revenue, while essential to achieve the mission of higher learning, is sometimes in conflict with that mission itself. The tension between mission and money is also highlighted in the chapter on the profitability of intercollegiate athletics. The concluding chapter investigates implications of the analysis for public policy.
517 3 $aMission & Money
606   $aUniversities and colleges$xFinance
606   $aEducation, Higher$xAims and objectives
615  0$aUniversities and colleges$xFinance.
615  0$aEducation, Higher$xAims and objectives.
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700   $aWeisbrod$b Burton Allen$f1931-$0120731
702   $aBallou$b Jeffrey P.$f1971-
702   $aAsch$b Evelyn Diane$f1956-
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200 10$aSimple models of magnetism /$fRalph Skomski
205   $a1st ed.
210   $aOxford $cOxford University Press$dc2008
215   $a1 online resource (366 p.)
225 1 $aOxford Graduate Texts
300   $aDescription based upon print version of record.
311 08$a0-19-857075-9 
311 08$a0-19-171881-5 
320   $aIncludes bibliographical references and index.
327   $aContents; List of abbreviations; List of panels and tables; Preface; 1 Introduction: The simplest models of magnetism; 1.1 Field and magnetization; 1.2 The circular-current model; 1.3 Paramagnetic spins; 1.4 Ising model and exchange; 1.5 The viscoelastic model of magnetization dynamics; Exercises; 2 Models of exchange; 2.1 Atomic origin of exchange; 2.1.1 One-electron wave functions; 2.1.2 Two-electron wave functions; 2.1.3 Hamiltonian and spin structure; 2.1.4 Heisenberg model; 2.1.5 Independent-electron approximation; 2.1.6 Correlations; 2.1.7 *Hubbard model; 2.1.8 *Kondo model
327   $a2.2 Magnetic ions2.2.1 Atomic orbitals; 2.2.2 Angular-momentum algebra; 2.2.3 Vector model and Hund's rules; 2.2.4 Spin and orbital moment; 2.3 Exchange between local moments; 2.3.1 Exchange in oxides; 2.3.2 Ruderman-Kittel exchange; 2.3.3 Zero-temperature spin structure; 2.4 Itinerant magnetism; 2.4.1 Free electrons, Pauli susceptibility, and the Bloch model; 2.4.2 Band structure; 2.4.3 Stoner model and beyond; 2.4.4 *Itinerant antiferromagnets; Exercises; 3 Models of magnetic anisotropy; 3.1 Phenomenological models; 3.1.1 Uniaxial anisotropy
327   $a3.1.2 Second-order anisotropy of general symmetry3.1.3 Higher-order anisotropies of nonuniaxial symmetry; 3.1.4 Cubic anisotropy; 3.1.5 Anisotropy coefficients; 3.1.6 Anisotropy fields; 3.2 Models of pair anisotropy; 3.2.1 Dipolar interactions and shape anisotropy; 3.2.2 Demagnetizing factors; 3.2.3 Applicability of the shape-anisotropy model; 3.2.4 The Ne?el model; 3.3 Spin-orbit coupling and crystal-field interaction; 3.3.1 Relativistic origin of magnetism; 3.3.2 Hydrogen-like atomic wave functions; 3.3.3 Crystal-field interaction; 3.3.4 Quenching; 3.3.5 Spin-orbit coupling
327   $a3.4 The single-ion model of magnetic anisotropy3.4.1 Rare-earth anisotropy; 3.4.2 Point-charge model; 3.4.3 The superposition model; 3.4.4 Transition-metal anisotropy; 3.5 Other anisotropies; 3.5.1 Magnetoelasticity; 3.5.2 Anisotropic exchange; 3.5.3 Models of surface anisotropy; Exercises; 4 Micromagnetic models; 4.1 Stoner-Wohlfarth model; 4.1.1 Aligned Stoner-Wohlfarth particles; 4.1.2 Angular dependence; 4.1.3 Spin reorientations and other first-order transitions; 4.1.4 Limitations of the Stoner-Wohlfarth model; 4.2 Hysteresis; 4.2.1 Micromagnetic free energy
327   $a4.2.2 *Magnetostatic self-interaction4.2.3 *Exchange stiffness; 4.2.4 Linearized micromagnetic equations; 4.2.5 Micromagnetic scaling; 4.2.6 Domains and domain walls; 4.3 Coercivity; 4.3.1 Nucleation; 4.3.2 Pinning; 4.3.3 Phenomenological coercivity modeling; 4.4 Grain-boundary models; 4.4.1 Boundary conditions; 4.4.2 Spin structure at grain boundaries; 4.4.3 Models with atomic resolution; 4.4.4 Nanojunctions; Exercises; 5 Finite-temperature magnetism; 5.1 Basic statistical mechanics; 5.1.1 Probability and partition function; 5.1.2 *Fluctuations and response; 5.1.3 Phase transitions
327   $a5.1.4 Landau theory
330   $aModels of magnetism have been pivotal in the understanding and advancement of science and technology. The book is the first one to cover the field as a whole, complementing a rich literature on specific models of magnetism. It is written in an easily accessible style, with a limited amount of mathematics, and covers a wide range of phenomena. - ;For hundreds of years, models of magnetism have been pivotal in the understanding and advancement of science and technology, from the Earth's interpretation as a magnetic dipole to quantum mechanics, statistical physics, and modern nanotechnology. This
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615  0$aMagnetism.
615  0$aMagnetism$xMathematical models.
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