Depends on their stiffness.
Any material, plastic bag Vs a plastic bottle. A tight drum skin Vs a loose drum skin, will vibrate depending on its siffness. The stiffer the item the more it vibrates.
The shape of the item and how it relates to air makes the sound you hear. So a bell made of lead will ring louder than a ball of copper half buried in sand. Even though a copper bell is louder than a lead one.
It also has to do with how the metal is being held/mounted. For example if you hold a long metal rod in the middle and then hit it, it will usually ring pretty well. But if you move your hand away from the middle a bit you’ll notice it won’t ring as well. This is because the waves traveling though the material wants to be split into perfect fractions (1/2, 1/4…) and in the engineering world we like call these points nodes. By holding the rod somewhere that isn’t a node you will be making the materials waves decay much faster or in other words it won’t ring very well.
Theres more to it then just that, but it would take forever to talk about all the different ways something can vibrate. So I’ll just leave it at that.
Metals and other materials ring is call resonance. The pitch at which the resonance occurs is caused by the amount of deflection of the object (stiffness) along with the mass (weight). For the case of a guitar string, you will notice the larger strings play a lower note, this is because the weight of the string and how tight it is pulled. The reason a heavier string is used is because you can apply more tension to the string and get the same resonance. If you used a small string and tried to tune it to low E, the string would be so loose it would strike the fretboard and cause buzzing. Because a heavier string will deflect less at the same tension, you can achieve the resonance frequency you desire with deflection within tolerance; however a heavier string will give you different harmonics.
Harmonics are additional frequencies that are heard in addition to the main resonance frequency but that have less power than the resonance frequency. These frequencies combine to give you a full picture of a sound. This is how you can tell the difference between a piano or a guitar even though they may be playing the same note and also help you judge distance and direction of a sound.
Some metals do not make a sound because they are not stiff enough or have too much deflection to be audable.
Crystal thingies ring – not crystal (plastic) doesn’t.
Think stack of attached lego (organized, crystalline) vs. poured out (random, viscous) mound of lego.
Depending on the molecular structure and conditions of cooling to a solid state, crystalline structures may or may not have been formed.
Typically, quick cooling / super saturation leads to large, ringy crystalline structures, your mileage may vary, but I’ll use that as my jumping off point…
Crystalline things that have broken bits also don’t ring as well.
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