Under varying conditions of pressure and temperature, most substances can exist in 3 states of matter. So we're talking about solids, liquids, or gases. Now we're going to say these forms of matter have an effect on physical properties which deal with physical appearance or state. Now with these states of matter, we have 2 terms you should familiarize yourself with. We have compressibility and viscosity. Compressibility is the capacity to flatten or reduce in size by increasing pressure. So something that's incredibly compressible can have its size decreased. Usually that is associated with gas molecules. Gas molecules spread themselves out as far as possible within a container. I can apply outward pressure on this and squeeze the gas molecules closer together. Now, viscosity. Viscosity is the resistance to flow or to change in shape. Something that is highly viscous moves very slowly, because it has a high resistance to flow. Think of honey versus water. Water can flow very easily in its liquid form. It has a low viscosity. There's not that much resistance to its flow. Honey, on the other hand, moves much more slowly, so it is more viscous. So just remember, the higher the viscosity, the higher the resistance to flow, the slower the substance will move.
States of Matter - Online Tutor, Practice Problems & Exam Prep
The 3 States of Matter include gases, liquids and solids.
Analyzing the States of Matter
States of Matter Concept 1
Video transcript
States of Matter Concept 2
Video transcript
So here when we take a look at the 3 states of matter, we first look at gases. Gases themselves can assume both the volume and shape of their containers. Liquids, on the other hand, can assume the shape, but not necessarily the volume of their container. Let's say your volume is a 100 ml beaker, and you only have 10 ml of your liquid. You could put all that liquid within that beaker, but there just isn't enough of it to fill up the whole beaker. There's only 10 ml of it. Solids, they maintain both their shape and their volume. When it comes to gases, gases are highly compressible, so they have a high compressibility. That means that I can put them in a container, apply pressure to that container, and cause those gas molecules to come closer and closer together. That's what we mean by highly compressible. Your molecules are far enough apart that I can apply outside pressure and bring them closer together. Here, liquids, the molecules are not right next to each other as tightly. They're moving around freely. Because of this, we're going to say that they have a moderate compressibility. I could squeeze them closer together but not by much. For solids, solids are locked in place, with each other. Here, they have a low compressibility. I can't squeeze the atoms any closer together. Next, viscosity. Viscosity, remember, is our resistance to flow; something that is viscous moves very slowly. Gases move around and jump around pretty easily inside of a container. Because of this, we'll say gases have a low viscosity. Liquids like water, water kind of moves pretty quickly but not all liquids are like water. Because of this, we're going to say liquids have more of a moderate viscosity. Solids, you take a solid you like, your calculator put on the table. It's not going to move pretty easily. You have to apply force to it to move it. That's because solids generally have a high viscosity. They have a high resistance to flow. They don't want to move unless you make them move. Right? So when we take a look at our 3 phases of matter, keep in mind their shape and volume in terms of a container, their viscosity, as well as their compressibility.
States of Matter Example 1
Video transcript
Here it states an unknown substance has a volume of 12.1 liters, and upon quadrupling the pressure, the volume remains unchanged, which helps in determining the likely physical state of the unknown. The choices are solid, liquid, gas, or neutron. Well, here, a neutron is not one of our physical states of matter, so we can eliminate that option. That means our answer is either a, b, or c. Here, they're telling us that we're quadrupling the pressure, and the volume doesn't change at all. Remember, gases are highly compressible. Thus, changing the pressure by this much would cause a significant change in the volume of the gas. Liquids are not as compressible as gases, but they would also be affected if we quadrupled the pressure. The volume would adjust slightly for liquids. So, it can't be a liquid. It would have to be a solid. Solids themselves are not compressible in terms of applying pressure to them. The volume more or less would stay the same. So here, out of all our options, option a is the correct answer.
Which of the following choices will have the lowest observed viscosity?
Nitric acid, which is used in the production of fertilizers, plastics and dyes, has a melting point of – 42ºC and a boiling point of 83ºC. Determine its physical state at a temperature of 110ºC.
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