الآلات الموسيقية - الآلات الوترية .. الآلات التي نستخدمها كل يوم وكيف تؤدي عملها

Musical Instruments - Stringed Instruments .. The instruments we use every day and how they work

Musical Instruments: Stringed Instruments:

Look at the four musical instruments whose pictures are published above this talk. Each instrument is completely different from the others. They differ in size, in the material from which they are made, in the way they are used in playing, and in the type of sound they produce. You may think that explaining the method and work of these instruments requires four explanations. But you will see that they have one explanation. This is because the main ideas related to producing sounds are the same for all instruments. The best way to understand these basic principles is to conduct some simple experiments.

To conduct the first experiment, we need a card and a long comb of the type in which half of its teeth are very close together, and the teeth of the other half are far apart. Pull one end of the card over the close teeth in a regular pull, then listen to the sound that this process produces. Then drag the end of the card over the spaced teeth in the same way, at the same speed, and listen to the sound that occurs. You will notice that the second sound is deeper than the first sound (i.e. the pitch of the sound is lower). What is the reason for this? When you dragged the end of the card over the comb, the card was rising and falling between the teeth, causing the air to vibrate and oscillate. The air vibration in turn caused the eardrum to vibrate and thus you heard two sounds. But why were the two sounds different?

To answer this question, you should count the teeth of a comb, let it be the comb whose picture you see to the left of this statement. Let us suppose, for example, that the number of close teeth is fifty, and the number of distant teeth is twenty-five. If you move the card in both sections at a second speed, this means that you have caused one 6 air vibrations fifty times per second over the close teeth, and twenty-five times per second over the distant teeth. The second sound was deeper than the first (and lower in pitch). From this you can conclude the following:

1 - The few vibrations that occur each second produce a deep sound (low pitch).

2 - The many vibrations per second produce a sharp-pitched sound (high pitch).

But musical instruments are not made of combs and cards, but of strings and pipes and the like. How do they produce different sounds? The following experiment will explain to you something about the way in which strings perform their work.

Attach a rubber band to a pencil, and attach the other end of the rubber band to a nail in the wall or any other safe place. Pull the rubber band tight by pulling the pencil backwards. Pull the rubber band with your finger and listen to the note. Shorten the rubber band by wrapping parts of it around the pencil and then pulling it tight again. Pull the rubber band with your finger and listen. Continue to shorten the rubber band by twisting and turning the pencil, and listen continuously to the notes that your finger makes when you pull the rubber band. You will see that the note will be higher in pitch the shorter the rubber band. So make this observation:

3. A long string makes a low-pitched (deep) sound, and a short string makes a high-pitched (screaming) sound. We have one more experiment left before we talk about musical instruments. Take a spoon and tap it on the side of an empty drinking glass, and listen to the note that occurs.

Then pour one inch of water into the cup, and tap the spoon again. Continue adding water little by little and listen to the notes that occur each time. You will find that the more water you add, the lower and deeper the note becomes. By what means does the water cause the lower note? This happens by increasing the weight, because a heavy object vibrates more slowly than a light object, and slow vibrations (fewer per second) produce a lower note. Let us note this:

4. When a heavy object vibrates, it produces a lower note (i.e. a deep sound).

A light object produces a higher note (a scream). Let us now consider how these facts about height and weight apply to many musical instruments.