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If you are standing somewhere between the car and the point at which the vibrations are no longer significant, the air molecules in your ear canals willbegin to vibrate. This will stimulate nerves that lead from your ear to your brain. Your brain will interpret the stimulation as something that we refer to sound .
Therefore, when the tree falls, it causes the air molecules to vibrate. However, if there are no ear canals around, no nerves to be stimulated, and no brain to interpretthat stimulation, there is no sound.
All we need to do to cause a person to experience sound is to cause the air molecules in that person's ear canals to vibrate at afrequency somewhere between 20 Hz (cycles per second) and 20,000 Hz, depending on the person's age. Usually as a person ages, the range defined bythose upper and lower limits decreases. Thus, a young person may "hear" the high-pitched whine of a power saw while an older person may not experience soundin that situation.
There are many ways that we can cause most humans to experience sound. One way for example, is to strike a bell with a hammer. Another way is to write aprogram to cause the diaphragm of a computer speaker to vibrate. That will be the topic of the next few modules in this course.
One way to create sound with a computer would be to hold it out and drop it on the floor. However, that is not what we intend to do. Instead, we intend towrite computer program that will cause the computer to create sound.
As you will learn in a future module, we can define a class and instantiate an object of that class for use in producing sound with a computer. When usedproperly in a program, that object will cause signed numeric values stored in an array to be converted to electrical current in the speakers attached to the computer.Positive values will cause the current to flow in one direction and negative values will cause the current to flow in the opposite direction.
If we populate that array with alternating groups of positive and negative values, that will cause the current being delivered to the speakers toalternate, switching from one direction to the other. The level of the alternating currents will be roughly proportional to the magnitudes of thealternating positive and negative values. Given sufficient magnitude within a frequency range supported by the speakers, the alternating currents will causethe diaphragms of the speakers to vibrate or move back and forth. This, in turn, will cause the adjacent air molecules to vibrate, which may be sensed as soundby a person within hearing distance of the speakers.
There are many ways that we can write a program to populate the array with alternating groups of positive and negative numbers. One of the simplest ways is topopulate the array with scaled versions of the values produced by the static sin function or the static cos function of the Math class. The Math class is contained in the Java Standard Edition class library. A common name for a series of such values is sinusoid .
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