Formulas September 7, 2021 2:34 PM Simple Harmonic Motion / Springs Sound Waves (Longitudinal) Images and Stuff Air density: • Speed of sound: • • Threshold of hearing: Threshold of pain: • ○ • - distance between relaxed position and equilibrium position • • • • • ○ Phase = stuff inside trig function ( ) • Pressure change • • Intensity (unattenuated) Potential energy of a spring • • ○ Simple Pendulums - area perpendicular to wave • • • • Geometric spread If θ is small (under 15°, sin(θ) ≈ θ): • • • ○ Waves - dimension (1D, 2D, or 3D) Sound level • • • ○ • • • • • ○ ○ Wave Interference for same , , and • - dimension (1D, 2D, or 3D) - attuenuation coefficient Attenuation ○ - difference in phase angle between component waves • ○ • - attuenuation coefficient Combined spreading and attenuation Waves on Strings (Transverse) • • ○ Acoustic Impedance - Linear density in • • ○ Sound Waves in a Fluid - tension in string Impedance • • ○ ○ - speed of the longitudinal wave - bulk modulus of fluid (resistance to compression in or ) ○ - density of fluid Power • Amplitude reflection coefficient • • Sound Waves in a Solid Amplitude transmission coefficient • • Power reflection coefficient ○ ○ ○ • Power transmission coefficient • • Standing Waves • • ○ - harmonic number ○ - distance between • nodes Waves in an Ideal Gas • ○ ○ ○ ○ - ratio of heat capacities - gas constant ( - absolute temperature in - molar mass ) • Notes Page 1 - speed of a longitudinal wave - elastic modulus (stiffness in - density of rod material or )
