Most natural sounds have multiple frequencies and intensities that change over time. Scientists and musicians often use graphics to display the components present in a sound. Throughout this website, visualizations are used to help describe sound. In the Audio Gallery, for example, each sound may be displayed as an animated frequency spectrum, a waveform and spectrogram.
First, listen to a series of tones ranging from 200 Hz to 475 Hz at 25 Hz intervals.
To see the frequencies present, the sound is displayed below as a frequency spectrum graph. The graph below plots the amount of energy in the sound at each frequency.
Each frequency appears as a sharp peak in this example.
Most natural sounds are complex with loud and soft frequency components.
Below is the frequency spectrum of a sound made by the fish, the Atlantic croaker.
The frequency spectrum above shows all the frequencies throughout the whole sound. An animated frequency spectrum shows just the frequencies present at each moment in time. You can see what frequencies are associated with each part of a sound. An animated frequency spectrum is presented for each sound in the Interactive Audio Gallery. Click anywhere on the movie below to see an animated spectrum of the "tones" sound.
You can see how each tone has a peak in intensity at a slightly different frequency. As the sound travels from one tone to the next, there is some overlap in the display due to the analysis method.
The animated spectrum below is of the same Atlantic croaker. Notice that there is energy (or intensity on these axes) at many frequencies in each part of the sound. The amount of energy at specific frequencies changes for the different sounds made by the Atlantic croaker.
We can easily hear the different frequencies and when they occur in the Atlantic croaker sound. However, there are many sounds for which the human ear cannot sort out the frequencies. The frequency spectrum allows us to "see" the frequencies.
Sound is also commonly shown as a waveform. A waveform graphs sound pressure as it changes with time. Sound pressure is positive when the sound wave is compressing the medium through which it is traveling. Sound pressure is negative when the medium is being expanded by the sound wave.
Below is the waveform of a 250 Hertz (Hz) tone at a constant amplitude.
Below is the waveform of a complex sound made by the Atlantic croaker. As the waveform shows, the loudness and frequency of the croaker’s vocalizations change with time.
Another way to look at sound is with a spectrogram. A spectrogram shows the frequencies present and at what times in the sound they are present. A spectrogram displays different sound energy levels with different shading or colors. Here, dark colors (blue and black) are low energy and light colors (yellow and white) are high energy.
The spectrogram below is of the Weddell seal. The waveform is displayed above the spectrogram. The movies show a white bar moving across the spectrogram as the sound is played. These movies help visualize the sound since the white bar shows you where you are in the sound.
All sounds in the Interactive Audio Gallery have an animated frequency spectrum. Spectrograms are also used to illustrate features of some sounds in the Audio Gallery and Animals and Sound section of this web site.
- "Acoustic and Vibration Animations." (Link)