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200 10$aFamily life in adolescence /$fPatricia Noller, Sharon Atkin
210  1$aWarsaw, [Poland] ;$aBerlin, [Germany] :$cDe Gruyter Open,$d2014.
210  4$dİ2014
215   $a1 online resource
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a3-11-040248-3 
311   $a3-11-040249-1 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tPreface --$tAcknowledgments --$tContents --$t1 Adolescence and Families --$t2 Theoretical Perspectives on Adolescents in the Family --$t3 Family Environment and Adolescent Development --$t4 Communication in Families with Adolescents --$t5 Adolescents in Divorced and Separated Families --$t6 The Family and Adolescent Issues --$t7 Leaving the Family --$t8 Risk and Resilience in Adolescence --$tReferences --$tList of Figures --$tList of Tables --$tIndex
330   $aMany parents fear the time when their beautiful happy children will become unmanageable adolescents continually engaging in risky or destructive behaviour. Unfortunately, this view of adolescents is the focus of the media, even though it relates to just a small proportion of young people. As the large amount of research we report shows, most adolescents are responsible young people who care about their families and crave the support of their parents. It is also true, however, as much research indicates, that the quality of the relationship parents have with their adolescents is crucial to the wellbeing of those young people. We discuss the need for parents to set reasonable limits on their adolescents and to expect appropriate behavior. We also show, on the basis of research, that children who have experienced positive, caring relationships with their parents are more likely than other adolescents to behave responsibly. In other words, behavior in adolescence does not 'come out of nowhere' but builds on earlier experiences in the family. Because of the large amount of research reported in this volume, we expect that it will be useful to practitioners from a range of professions that are likely to focus on adolescents: social workers, youth leaders, welfare workers, religious leaders, psychologists and psychiatrists and contribute to a better understanding of young people and their development, and the importance of families to that development.
606   $aAdolescent psychology
606   $aAdolescence
615  0$aAdolescent psychology.
615  0$aAdolescence.
676   $a155.5
700   $aNoller$b Patricia$0258383
702   $aAtkin$b Sharon
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200 10$aVibrations and acoustic radiation of thin structures$b[electronic resource] $ephysical basis, theoretical analysis and numerical methods /$fPaul J.T. Filippi
210   $aLondon $cISTE ;$aHoboken, N.J. $cJohn Wiley$d2008
215   $a1 online resource (290 p.)
225 1 $aISTE ;$vv.58
300   $aDescription based upon print version of record.
311   $a1-84821-056-6 
320   $aIncludes bibliographical references and index.
327   $aVibrations and Acoustic Radiation of Thin Structures; Contents; Preface; 1 Equations Governing the Vibrations of Thin Structures; 1.1 Introduction; 1.1.1 General Considerations on Thin Structures; 1.1.2 Overview of the Energy Method; 1.2 Thin Plates; 1.2.1 Plate with Constant Thickness; 1.2.2 Plate with Variable Thickness; 1.2.3 Boundary with an Angular Point; 1.3 Beams; 1.4 Circular Cylindrical Shells; 1.5 Spherical Shells; 1.5.1 Approximation of the Strain and Stress Tensors and Application of the Virtual Works Theorem; 1.5.2 Regularity Conditions at the Apexes
327   $a1.6 Variational Form of the Equations Governing Harmonic Vibrations of Plates and Shells1.6.1 Variational Form of the Plate Equation; 1.6.2 Variational Form of the Shells Equations; 1.7 Exercises; 2 Vibratory Response of Thin Structures in vacuo: Resonance Modes, Forced Harmonic Regime, Transient Regime; 2.1 Introduction; 2.2 Vibrations of Constant Cross-Section Beams; 2.2.1 Independent Solutions for the Homogenous Beam Equation; 2.2.2 Response of an Infinite Beam to a Point Harmonic Force; 2.2.3 Resonance Modes of Finite Length Beams
327   $a2.2.4 Response of a Finite Length Beam to a Harmonic Force2.3 Vibrations of Plates; 2.3.1 Free Vibrations of an Infinite Plate; 2.3.2 Green's monic Plate Equation and Response of an Infinite Plate to a Harmonic Excitation; 2.3.3 Harmonic Vibrations of a Plate of Finite Dimensions: General Definition and Theorems; 2.3.4 Resonance Modes and Resonance Frequencies of Circular Plates with Uniform Boundary Conditions; 2.3.5 Resonance Modes and Resonance Frequencies of Rectangular Plates with Uniform Boundary Conditions
327   $a2.3.6 Response of a Plate to a Harmonic Excitation: Resonance Modes Series Representation2.3.7 Boundary Integral Equations and the Boundary Element Method; 2.3.8 Resonance Frequencies of Plates with Variable Thickness; 2.3.9 Transient Response of an Infinite Plate with Constant Thickness; 2.4 Vibrations of Cylindrical Shells; 2.4.1 Free Oscillations of Cylindrical Shells of Infinite Length; 2.4.2 Green's Tensor for the Cylindrical Shell Equation; 2.4.3 Harmonic Vibrations of a Cylindrical Shell of Finite Dimensions: General Definition and Theorems
327   $a2.4.4 Resonance Modes of a Cylindrical Shell Closed by Shear Diaphragms at Both Ends2.4.5 Resonance Modes of a Cylindrical Shell Clamped at Both Ends; 2.4.6 Response of a Cylindrical Shell to a Harmonic Excitation: Resonance Modes Representation; 2.4.7 Boundary Integral Equations and Boundary Element Method; 2.5 Vibrations of Spherical Shells; 2.5.1 General Definition and Theorems; 2.5.2 Solution of the Time Harmonic Spherical Shell Equation; 2.6 Exercises; 3 Acoustic Radiation and Transmission by Thin Structures; 3.1 Introduction
327   $a3.2 Sound Transmission Across a Piston in a One-Dimensional Waveguide
330   $aSound is produced by vibrations and as such can be dampened or augmented based on materials selection. This title looks at the effects of sound and vibration on thin structures and details how damage may be avoided, acoustical effects created, and sound levels controlled.
410  0$aISTE
606   $aSound$xTransmission
606   $aSound-waves
606   $aThin-walled structures$xVibration
606   $aRadiation sources
615  0$aSound$xTransmission.
615  0$aSound-waves.
615  0$aThin-walled structures$xVibration.
615  0$aRadiation sources.
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700   $aFilippi$b Paul J.T$0955806
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996   $aVibrations and acoustic radiation of thin structures$92163468
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