Chapter 1 Definition of metamorphism, classification of metamorphic rocks 1.1 Definition of metamorphism 1.2 Classification and nomenclature of metamorphic rocks 1.3 The minerals of metamorphic rocks 1.4 English mineral names 1.5 Description of thin sectio of metamorphic rocks HOMEWORK Chapter 2 Conditio of metamorphism, P-T-t paths, the Phase Rule, composition-assemblage diagrams, metamorphic facies 2.1 Limits of metamorphism 2.2 P-T-t paths 2.3 Equilibrium 2.4 The Phase Rule 2.5 Using the Phase Rule to fix P- T Conditio 2.6 AFM diagrams 2.7 Metamorphic facies HOMEWORK Chapter 3 Contact metamorphism 1 : the role of heat 3.1 Introduction 3.2 Contact aureole of the Markfield Diorite, Leicestehire, England 3.3 Contact aureole of the Skiddaw Granite, Lake District, England 3.4 Heat trafer at the contacts of intrusio 3.5 Effect of intrusion size and shape on aureole size and shape 3.6 Thermal conduction models of contact aureoles 3.7 Thermal convection models of contact aureoles 3.8 Facies series in contact metamorphism HOMEWORK Chapter 4 Contact metamorphism 2: the role of fluids 4.1 Introduction 4.2 Contact metamorphism of limestone 4.3 Buffering of H2O and CO2 in calcareous skar 4.4 Very high temperature reactio between calcite and quartz 4.5 Discussion HOMEWORK Chapter 5 Dynamic metamorphism 5.1 Introduction and definition 5.2 Strain 5.3 Classification of dynamic metamorphic rocks 5.4 The Lochseiten Mylonite, Switzerland 5.5 Dynamic metamorphism in Dengfeng County, Henan Province 5.6 Dynamic metamorphism in relation to depth 5.7 Microstructures of metamorphic rocks HOMEWORK Chapter 6 Regional metamorphism 1: Barrows Metamorphic Zones 6.1 Introduction 6.2 Barrows Zones in pelitic rocks 6.3 Changes in mineral assemblages with metamorphic grade 6.4 The Sulitjelma District, Norway and Sweden 6.5 Garnet growth and zoning at Sulitjelma 6.6 Geothermal gradients and metamorphic field gradients HOMEWORK Chapter 7 Regional metamorphism 2: basic igneous rocks 7.1 Sulitjelma greetones and amphibolites 7.2 The boundary between the greechist and amphibolite facies 7.3 ACF triangular diagrams to represent mineral assemblages of metabasites 7.4 Plotting ACF triangular diagrams 7.5 Metamorphic temperature gradients in sedimentary basi HOMEWORK Chapter 8 Regional metamorphism 3: ocean floor metamorphism 8.1 Metamorphism at spreading ocean ridges 8.2 The Troodos Ophiolite, Cyprus 8.3 Petrology of the Ophiolite 8.4 Structure and geothermal gradients of oceanic ridges 8.5 Hydrothermal activity near spreading ridges 8.6 Conclusio HOMEWORK Chapter 9 Regional metamorphism 4: high temperature metamorphism 9.1 Partial melting and migmatites 9.2 Structural varieties of migmatite 9.3 Field relatio of migmatites 9.4 The granulite facies 9.5 Why are granulites so dry? 9.6 The Adirondack Mountai, New York State, USA 9.7 Ultra-high temperature metamorphism HOMEWORK Chapter 10 Regional metamorphism 5: HP and UHP metamorphism 10.1 High pressure metamorphism 10.2 The Franciscan metamorphic belt of California 10.3 Eclogites and the eclogite facies 10.4 Ultra high pressure metamorphism 10.5 How did HP and UHP rocks get back to the surface? 10.6 UHP rocks, the range of conditio of metamorphism and implicatio for metamorphic facies HOMEWORK Chapter 11 Extra-terrestrial metamorphism 11.1 Impact metamorphism 11.2 Meteor Crater, Arizona, USA 11.3 Shock metamorphism at the N6rdlinger Ries Crater, Germany 11.4 Metamorphism in Moon rocks References