Exam 17: Waves II

This graph shows the position of an element of air as a function of time as a sound wave passes through it. Which letter corresponds to the amplitude of the wave?

Which of the following properties of a sound wave determine its "pitch"?

Beats in sound occur when:

The lowest tone produced by a certain organ comes from a 3.0-m pipe with both ends open. If the speed of sound is 340 m/s, the frequency of this tone is approximately:

A source emits sound with a frequency of 1000 Hz. It and an observer are moving toward each other, each with a speed of 100 m/s. If the speed of sound is 340 m/s, the observer hears sound with a frequency of:

A stationary source S generates circular outgoing waves on a lake. The wave speed is 5.0 m/s and the crest-to-crest distance is 2.0 m. A person in a motor boat heads directly toward S at 3.0 m/s. To this person, the frequency of these waves is:

The sound level at a point P is 14 db below the sound level at a point 1.0 m from a point source. Assuming the intensity from a point source drops off like the inverse square of the distance, the distance from the source to point P is:

A 200-cm organ pipe with one end open is in resonance with a sound wave of wavelength 270 cm. The pipe is operating in its:

Two pipes are each open at one end and closed at the other. Pipe A has length L and pipe B has length 2L. Which harmonic of pipe B matches in frequency the fundamental of pipe A?

The speed of a sound wave is determined by:

Two waves are out of phase by half a wavelength. What is this in degrees?

The intensity of a certain sound wave is 6 $\mu$ W/cm². If its intensity is raised by 10 decibels, the new intensity is:

A microphone of surface area 2.0 cm² absorbs 1.1 mW of sound. What is the intensity of sound hitting the microphone?

The rise in pitch of an approaching siren is an apparent increase in its:

A source emits sound with a frequency of 1000 Hz. It is moving at 20 m/s toward a stationary reflecting wall. If the speed of sound is 340 m/s an observer at rest directly behind the source hears a beat frequency of:

Organ pipe Y (open at both ends) is twice as long as organ pipe X (open at one end) as shown. The ratio of their fundamental frequencies f_X::f_Y is:

A sound wave has a wavelength of 3.0 m. The distance from a compression center to the adjacent rarefaction center is:

Five organ pipes are described below. Which one has the highest fundamental frequency?

The valves of a trumpet and the slide of a trombone are for the purpose of:

To produce beats it is necessary to use two waves: