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200 14$aThe essential guide to managing teacher stress $epractical skills for teachers /$fBill Rogers
205   $aSecond edition.
210  1$aHarlow, England ;$aNew York, New York :$cPearson Longman,$d[2012]
215   $a1 online resource (xvii, 236 p. ) 
300   $a"Practical skills for teachers"--Cover page.
311   $a1-4082-6174-X 
320   $aIncludes bibliographical references (pages [221]-227) and index.
327   $aIntroduction Chapter 1 The dimensions of teacher stress Chapter 2 The physiology of stress: what it does to us Chapter 3 A lesson in London: stress in the classroom Chapter 4 Beliefs, emotions, stress and our daily reality Chapter 5 Anxiety and worry Chapter 6 Anger: beyond frustration Chapter 7 A behaviour management and discipline plan at the classroom level Part A - Key elements, practices and skills Part B - Balancing skills and practices Chapter 8 Difficult and challenging students: follow-up and support Chapter 9 Hard-to-manage classes: a collegial response Chapter 10 Mentoring support for professional development in behaviour leadership Chapter 11 Colleague support: auditing for stress and supporting each other Appendices
330   $aOffering practical solutions to those facing problems in the classroom, this book emphasises the necessity for, and proven advantages of, a peer support as part of a whole-school approach to issues such as stress management, discipline and curriculum.
330   $bFinding it difficult to juggle the many challenges of the teaching profession? Bill Rogers, world-renowned expert in classroom management and teacher stress, focuses on peer-support to show you how to reduce stress levels, achieve a work-life balance and be a successful classroom teacher in The Essential Guide to Managing Teacher Stress. This is your definitive guide to coping with the stresses of the teaching profession and is designed to confront stress-causing factors in positive, supportive and practical ways. Whether it s the behaviour of a challenging class, the volume of paperwork or difficult relationships with colleagues causing you stress, Bill Rogers has the advice you need to make a difference.
606   $aSchool management and organization
606   $aTeachers$xJob stress
615  0$aSchool management and organization.
615  0$aTeachers$xJob stress.
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200 10$aEngineering physics of high temperature materials $emetals, ice, rocks and ceramics /$fNirmal K. Sinha and Shoma Sinha
210  1$aHoboken, New Jersey :$cWiley,$d[2021]
210  4$dİ2021
215   $a1 online resource (435 pages)
311 08$aPrint version: Sinha, Nirmal K. Engineering Physics of High-Temperature Materials Newark : John Wiley & Sons, Incorporated,c2021 9781119420484 
320   $aIncludes bibliographical references and index.
330   $a"Engineering Physics of High Temperature Materials: Metals, Ice, Rocks and Ceramics addresses an issue that is universally acknowledged and documented - that is, what causes a material to deform and fail at high temperatures and, more importantly, what are the mechanisms involved in the deformation processes leading to failure. This applies to ice, glass, ceramics, rocks and complex high-temperature alloys, including single crystals, used in gas-turbine engines. Volume highlights include: Experimental and theoretical studies on temperature-microstructure dependent delayed-elasticity (used to be called 'anelasticity') at high homologous temperatureA? that hasA? ready applications to the analysis of lithosphere-asthenosphere boundary (LAB) temperature regime inferred from seismic velocities Establishes the facts that engineering physics of polycrystalline ice and ice sheets, floating on their own melt, hence at extremely high homologous temperatures, are analogous to Earth's Asthenosphere and complex engineering materials like metallic alloys and ceramics used at high temperatures > 0.4Tm, where Tm is the melting point Presents and emphasizes the fundamental grain-scale and lattice-scale (dislocations slip, climb and pileups) microstructural and micromechanical similarities of apparently different materials, such as metals, metallic alloys, ice, rocks and ceramics Development of novel experimental technique, 'Strain Relaxation and Recovery Test (SRRT)' for characterization of the pivotal, yet neglected, role of delayed elasticity in shaping the primary creep, and nucleation and multiplication of grain-boundary cracks during this period Development of Elasto-Delayed Elastic-Viscous (EDEV) equation that offers unified mathematical and physical descriptions of the (a) shapes of 'constant-stress creep curve' (primary, transitional minimum creep rate and tertiary), (b) 'constant strain-rate stress-strain curve' and (c) 'constant-strain stress relaxation' Engineering Physics of High Temperature Materials is a valuable resource for students and researchers in the field of crystallography, mineralogy, petrology, structural geology, metamorphic geology, geophysics, glaciology, tectonics, engineering, mechanics, thermodynamics, high-temperature deformation, physics, metallurgy, ceramics, alloys, and material sciences."--$cProvided by publisher.
606   $aMaterials at high temperatures
606   $aDeformations (Mechanics)
615  0$aMaterials at high temperatures.
615  0$aDeformations (Mechanics)
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