Intensive vs. Extensive Properties - Online Tutor, Practice Problems & Exam Prep

When discussing the different properties of matter, it's also important to include intensive and extensive properties. Intensive properties are those that are innate or intrinsic to a given material. Because they are innate to an object, they are independent of the size or amount of the substance present. It doesn't matter if I have a little bit of the substance or a lot of the substance; that property is unique to it. Intensive properties are characterized as being physical properties. If we take a look at these images, we have our trusty color palette. We know that color is an intensive property. It doesn't matter if I have a small amount of gold or a large amount of gold; gold typically has the same color. Next, the density of an object determines if it's going to sink within the liquid or if it's going to float on its surface. Thus, density is an intensive property. For example, gold, whether an ounce or a ton, will have the same density. Next, hardness. It doesn't matter if I have a small diamond or a large diamond; diamonds are naturally strong and durable substances found in nature. Their hardness isn't based on the amount that we have of the substance. This pot, which has steam coming out of it, can represent boiling point, melting point, or freezing point. And, this thermometer here represents temperature, another common type of intensive property. We know that water, from grade school, we're told that water boils at 100°C. It doesn't matter if I have a gallon of water or a cup of water; water will boil at 100°C, no matter the amount of it, because temperature is an intensive property. Now that we've gone over the basic ideas of this, let's take a look at questions we're asked to either determine what is or isn't an intensive property. So click on the next video.

So here if we take a look at this example question, it says, which of the following are examples of intensive properties? So for the first one, we have mass. Now, mass definitely is not an intensive property. 10 grams is very different from 100 grams. Mass is based on the amount you have of a substance. Length can't also be an intensive property because think about it. Length, 1 mile is different from 1000 miles. Hence, the length of something is based on the quantity that's stated. We know that melting point is one of the intensive property examples we've given above, so we know that our answer must contain melting point in a choice. So if we look at the options, melting point is not listed here, melting point is listed here, but we just said that length cannot be an intensive property. Melting point is listed here, but again, length, we said cannot be an intensive property. So that means the only answer is option D. If we look for volume, volume can't be an intensive property either because we can say here that 1 ounce of water is very different from 1 gallon of water. Volume is based on the quantity that's stated. Luster would be our other intensive property. Luster has to do with the shininess of an object. Now, if we think of gold, both an ounce and a ton of gold are going to have the same type of shininess associated with that particular element. Shininess or luster is based on just innate properties within the substance. So, luster, as well as melting point, would be our two intensive properties. Now that we've done this example, let's move on to the practice question.

In our continued discussion of the properties of matter, we now come to extensive properties. Now we're going to say here that extensive properties are those that are external. These external properties are dependent on the size and amount of substance present. Extensive properties, just like intensive properties, are still physical properties. Some of the most common types of extensive properties, some of which we've seen already, include the following:

This anvil represents mass. Mass is definitely an extensive property. It's based on the amount that we have. 10 grams of a substance is very different from 100 grams of that same substance.

Next, we have a ruler which represents length. One mile is definitely different from 100 miles.

Here we have our cube; inside of the cube, the space within it is our volume. You could have a cube that holds only an ounce of water and another cube that can hold a gallon of water. Here, the volume involved is very different.

Finally, here we have our energy drink. Note, we're not saying that an energy drink is an extensive property. What we're saying here is that all forms of energy, such as thermal energy and nuclear energy, are types of extensive property. That energy drink there is just a broad understanding of all the energy forms that exist.

Just remember, an extensive property is based on the amount that we have of a particular substance. Now that we've seen this basic understanding of it, let's move on to our example question in the next video.

So if we take a look here at this example question, it states, which of the following is classified as an extensive property? First, we have chemical energy. Remember, we have our trusty energy drink up above. That energy drink represents all forms of energy, nuclear energy, thermal energy, or in this case, chemical energy. So remember, if energy is in a name, it can count as an extensive property. So here, this would be our extensive property. Let's look at the other choices here. Next, we have electrical conductivity. Now, conductivity is to be able to, basically channel electrical current. Now, that's based on the properties that are inside or innate to a substance. So it represents an intensive property. Whether they have a small amount of a conductive material or a large amount, it's still going to conduct electricity. Its amount doesn't control this particular property. Luster. We've talked about luster before as well. It talks about the shininess of a material. Its shininess doesn't depend on if we have a lot of it or a little bit of it. It also is an intensive property. And then finally, freezing point. Remember, freezing point, melting point, boiling point, we said that all of these are innate or inside properties, so they're all intensive properties. Whether I have a cup of water or a gallon of water, it would have the same freezing point. So out of all my choices, only option A is the correct choice. Now that we've seen this example question, let's move on to the practice question.