01137nam 2200361Ia 450 99638387750331620221108032354.0(CKB)1000000000587436(EEBO)2240962132(OCoLC)12589672(EXLCZ)99100000000058743619850923d1661 uy |engurbn||||a|bb|Is this to deny the Popes supremacy?[electronic resource] to wear his robes and livery, to worship in his form, and contrary to the form and power of God[London s.n.1661]1 sheet ([1] p.)Reproduction of original in Huntington Library.Broadside.Title taken from text.eebo-0113Anti-CatholicismEnglandEarly works to 1800BroadsidesrbgenrAnti-CatholicismWollrich Humphry1633?-1707.1005307EAAEAAm/cWaOLNBOOK996383877503316Is this to deny the Popes supremacy2404968UNISA01118nam0 22003011i 450 UON0019589920231205103233.89309-07-56625-120030730d1982 |0itac50 baengGB|||| 1||||ˆThe ‰life of Cornishby Crysten Fudgeillustrations by Laura RoweRedruthDyllansow Truranc198230 p.21 cm.CORNOVAGLIAStoriaUONC040838FILingua ingleseStoriaUONC038287FITEATRO INGLESESec. 15.-17.UONC040839FIRedruthUONL003353942Storia dell'Inghilterra21FUDGECrystenUONV116277678782Dyllansow TruranUONV266565650ITSOL20250808RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00195899SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI Angl XI 330 SI LO 53166 5 330 Life of Cornish1290042UNIOR05382nam 22007213u 450 991100698340332120230801234234.09781523109623152310962997804861747160486174719(CKB)3710000000334829(EBL)1919752(SSID)ssj0001117593(PQKBManifestationID)12522787(PQKBTitleCode)TC0001117593(PQKBWorkID)11100172(PQKB)10539729(MiAaPQ)EBC1919752(Au-PeEL)EBL1919752(CaONFJC)MIL570456(OCoLC)869525874(Perlego)1444078(EXLCZ)99371000000033482920150119d2012|||| u|| |engur|n|---|||||txtccrAn Introduction to Acoustics1st ed.Newburyport Dover Publications20121 online resource (590 p.)Dover Books on PhysicsDescription based upon print version of record.9780486442518 0486442519 Title Page; Copyright Page; PREFACE; Table of Contents; INTRODUCTION; CHAPTER 1 - FUNDAMENTAL PARTICLE VIBRATION THEORY; 1-1 Simple harmonic motion of a particle.; 1-2 Energy in SHM.; 1-3 Combinations of SHM's along the same straight line.; 1-4 Two collinear SHM's whose frequencies differ by a small amount. Beats.; 1-5 Mathematical vs audible beats.; 1-6 Combinations of more than two SHM's of different frequencies.; 1-7 Fourier's theorem.; 1-8 Determination of the Fourier coefficients.; 1-9 Even and odd functions.; 1-10 Convergence.1-11 Application of the Fourier analysis to empirical functions.1-12 Damped vibrations of a particle.; 1-13 Case I. . Large frictional force; 1-14 Case II. Small frictional force.; 1-15 Case III. . Critical damping.; 1-16 Forced vibrations.; 1-17 The differential equation.; 1-18 The steady state solution for forced vibrations.; 1-19 Velocity and displacement resonance.; 1-20 The amplitude at resonance.; 1-21 Phase relationships.; 1-22 Energy transfer in forced oscillations.; 1-23 Some applications of the theory of forced vibrations.; 1-24 The importance of the transient response.1-25 Superposition of SHM's mutually perpendicular.CHAPTER 2 - PLANE WAVES IN AIR; 2-1 Introduction.; 2-2 Dilatation and condensation.; 2-3 Bulk modulus; 2-4 Significant variables in the field of sound.; 2-5 The differential equation for plane waves.; 2-6 Physical significance of the particle displacement,ξ; 2-7 Solution of the wave equation.; 2-8 Disturbances of a periodic nature.; 2-9 The wavelength.; 2-10 Graphical representation.; 2-11 Waves containing more than one frequency component.; 2-12 Alternate forms for the steady state solution to the wave equation.; 2-13 Phase relationships.2-14 Energy in the wave.2-15 Kinetic energy.; 2-16 Potential energy.; 2-17 Total energy density in the wave.; 2-18 Sound intensity.; 2-19 Units of intensity.; 2-20 The decibel.; 2-21 Intensity "level"; pressure "level."; CHAPTER 3 - WAVES IN THREE DIMENSIONS; 3-1 Waves in three dimensions. The equation of continuity.; 3-2 Application of Newton's second law.; 3-3 The differential equation for waves in three dimensions.; 3-4 The differential equation for spherical waves.; 3-5 The solution of the differential equation.; 3-6 The velocity potential, Φ.3-7 Application of the function Φ. The "pulsing sphere."3-8 Intensity for spherical waves.; 3-9 The "strength" of a source.; 3-10. Sources equivalent to a pulsing sphere.; 3-11 Limitations on the use of the "strength of source" concept.; 3-12 Extension of the "strength of source" concept.; 3-13 The double source.; 3-14 Examples of the double source.; 3-15 Radiation from a double source as a function of frequency.; 3-16 Quantitative analysis of the double source.; 3-17 Comparison of total power radiated by different types of sources.; 3-18 Practical double sources. The principle of the baffle.CHAPTER 4 - INTERFERENCE PATTERNS. DIFFRACTION No branch of classical physics is older in its origins yet more modern in its applications than acoustics. Courses on acoustics very naturally begin with a study of vibrations, as a preliminary to the introduction of the wave equations. Both vibrations and waves, of course, are vastly important to all branches of physics and engineering. But it is very helpful to students to gain an understanding of mechanical waves before trying to comprehend the more subtle and abstract electromagnetic ones.This undergraduate-level text opens with an overview of fundamental particle vibration theory, and itDover Books on PhysicsSoundPhysicsHILCCPhysical Sciences & MathematicsHILCCAcoustics & SoundHILCCSound.PhysicsPhysical Sciences & MathematicsAcoustics & Sound534Randall Robert H1824226AU-PeELAU-PeELAU-PeELBOOK9911006983403321An Introduction to Acoustics4391319UNINA