- A. General Materials & Mathematics
- B. Statics
- C. Kinematics & Dynamics
- D. Rotational Mechanics
- E. Gravitation & Astronomy
- F. Fluid Mechanics
- G. Vibrations & Mechanical Waves
- H. Sound
- I. Thermodynamics
- J. Electrostatics & Magnetostatics
- K. Electromagnetic Principles
- L. Geometrical Optics
- M. Wave Optics
- N. Spectra & Color
- O. Vision
- P. Modern Physics
H3-02. Standing Sound Waves - Reflection
To demonstrate the origin of standing waves from one source and its reflection.
Audio oscillator, small speaker, plane reflector and microphone on optical rail, audio amplifier, and dual trace oscilloscope.
A loudspeaker is driven at about 3000 Hz by a sine wave oscillation which is displayed on the top trace of the oscilloscope. The standing wave pattern, created by the sound from the speaker and the wave reflected off the flat metal plate, is picked up by a microphone sliding along the optical rail and displayed on the lower trace of the oscilloscope. ◙
Robert R. Meijer, Demonstrations on Standing Sound Waves, AJP 16, 360, (1948). ◙Francis W. Sears, Measurement of the Wavelength of Sound Wave, TPT 3, 79, (1965). ◙S. S. Lesty, A Method for Measuring the Sound Wavelength in Gases, AJP 31, 996-98, (1963). ◙J. Rekveld, On the Teaching of "Stand Waves," AJP 26, 159-163, (1958). ◙Directions For Use of Small Speaker, Leybold Heraeus 58006.