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Chapter 11 Learning Objectives

Concepts and Skills to Review

  • Period, frequency, angular frequency (Section 5.1, Section 10.6)
  • Position, velocity, acceleration, and energy in simple harmonic motion (Section 10.5)
  • Resonance (Section 10.10)
  • Graphical analysis of SHM (Section 10.7)

Summary

  • An isotropic source radiates sound uniformly in all directions. Assuming that no energy is absorbed by the medium and there are no obstacles to reflect or absorb sound,
     <a onClick="window.open('/olcweb/cgi/pluginpop.cgi?it=gif:: ::/sites/dl/free/0070524076/57994/image11_1.gif','popWin', 'width=NaN,height=NaN,resizable,scrollbars');" href="#"><img valign="absmiddle" height="16" width="16" border="0" src="/olcweb/styles/shared/linkicons/image.gif"> (1.0K)</a> (11-1)
  • In a transverse wave, the motion of particles in the medium is perpendicular to the direction of propagation of the wave. In a longitudinal wave, the motion of particles in the medium is along the same line as the direction of propagation of the wave.
  • The speed of a transverse wave on a string is
     <a onClick="window.open('/olcweb/cgi/pluginpop.cgi?it=gif:: ::/sites/dl/free/0070524076/57994/image11_4.gif','popWin', 'width=NaN,height=NaN,resizable,scrollbars');" href="#"><img valign="absmiddle" height="16" width="16" border="0" src="/olcweb/styles/shared/linkicons/image.gif"> (1.0K)</a> (11-4)
    whereµ = m/L(11-3)
  • A periodic wave repeats the same pattern over and over. Harmonic waves are a special kind of periodic wave characterized by a sinusoidal function (either a sine or cosine function).
  • If a periodic wave has period T and travels at speed v, the repetition distance of the wave is the wavelength:
     λ = vT(11-5)
  • The principle of superposition: When two or more waves overlap, the net disturbance at any point is the sum of the individual disturbances due to each wave.
  • A harmonic traveling wave can be described by
     y(x,t) = A cos(ωt - kx)(11-8)
    The argument of the sinusoidal function, (wt ±kx), is called the phase of the wave at x and t. The constant k is the wavenumber
     <a onClick="window.open('/olcweb/cgi/pluginpop.cgi?it=gif:: ::/sites/dl/free/0070524076/57994/image11_7.gif','popWin', 'width=NaN,height=NaN,resizable,scrollbars');" href="#"><img valign="absmiddle" height="16" width="16" border="0" src="/olcweb/styles/shared/linkicons/image.gif"> (1.0K)</a> (11-7)
  • Reflection occurs at a boundary between media with different wave speeds. Some energy may be transmitted into the new medium and the rest is reflected.The wave transmitted past the boundary is refracted:
     <a onClick="window.open('/olcweb/cgi/pluginpop.cgi?it=gif:: ::/sites/dl/free/0070524076/57994/image11_10.gif','popWin', 'width=NaN,height=NaN,resizable,scrollbars');" href="#"><img valign="absmiddle" height="16" width="16" border="0" src="/olcweb/styles/shared/linkicons/image.gif"> (1.0K)</a> (11-10)
  • Coherent waves have the same frequency and maintain a fixed phase relationship with each other. Coherent waves that are in phase with each other interfere constructively; those that are 180° out of phase interfere destructively.
  • Diffraction occurs when a wave bends around an obstacle in its path.
  • In a standing wave on a string, every point moves in SHM with the same frequency. Nodes are points of zero amplitude; antinodes are points of maximum amplitude. The distance between two adjacent nodes is 1/2λ.





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