Conversion Factors (Simplified) - Online Tutor, Practice Problems & Exam Prep

So in our exploration of chemistry, eventually, we're going to reach a topic called dimensional analysis, which can be thought of as more complex word problems where our job is to isolate a particular unit. Now, a key component of dimensional analysis is the conversion factor. The conversion factor can be thought of as simply a ratio or fraction that ties together two different units. Now, for example, we can say that a day is composed of 24 hours. So this is saying that one day equals 24 hours. It is a conversion factor because it is tying together day as a unit with hours, which is a different unit. To make it into a conversion factor, we have to change it into a fractional ratio. So we can set it up as one day is 24 hours or 24 hours is one day. So there, we're combining these two different types of units and showing their relationship to one another. Besides the conversion factor, we can also have a given amount. Now, a given amount is just a value containing only one unit. For example, we spent 3 hours studying chemistry today, and trust me there will be times when you're spending that many hours or more in preparation for a quiz or exam. So here, our given amount is just 3 hours. I am not tying those 3 hours to any other units. So it's just 3 hours by itself. And it's these combinations of conversion factors and given amounts that will be vital in our understanding of dimensional analysis. But, again, before we get to dimensional analysis, let's look over some questions where it's just our responsibility to help identify the conversion factors and given amounts within the particular question. So click on the next video and let's get started.

So Klutch's ugly but good chocolate chip cookie recipe is always a hit at our office parties. My budget is $80. The recipe makes 18 servings for the party. Each serving requires 8 chocolate truffle chips at a cost of 50¢ per 5 chocolate truffle chips. From the information provided, determine the given amount and all conversion factors. Now our given amount, remember, that's when we have only 1 unit. That's it. Our given amount has to be the $80 because they're not saying $80 connected to some other units. It's just dollars by itself. The conversion factors though, these are when we have 2 units bonded together, 2 different units bonded together. This one is a little bit trickier. If we look at the sentence after the $80 budget, they tell me the recipe makes 18 servings. So that there is a conversion factor. The conversion factor is 1 recipe has 18 servings. Because recipe and servings are 2 different units. Let's look at the next line. Each serving requires 8 chocolate truffle chips. So servings, each serving has this many chocolate truffle chips. That's also a conversion factor because it's one serving is 8 chocolate truffle chips, which I'll abbreviate as CTC. They tell me that it is 50¢ per 5. The word per there definitely is a big help because it tells us that that amount of 50¢ and 5 are connected together. So then that would be our last conversion factor. So 50¢ for every 5 chocolate truffle chips. Eventually, when we move on to dimensional analysis later on, we'll see how these units cancel out with one another and help us isolate our final value. But remember, a given amount has 1 unit, a conversion factor is 2 different units mixed together. Now that we've seen this first example, let's continue onward with practice questions.

Now remember that a conversion factor deals with two units combined together. And when it comes to our conversion factors, the most common ones involve length, volume, or mass. Now, remember, we see a lot of different conversion factors here, but only the ones that are highlighted in purple you should commit to memory. The others will be given to you within the work problem that you're solving or some type of formula sheet. So let's start out with length. We know here that 1 inch is 2.54 centimeters. So we need to commit that to memory. Next, we can say that 1 yard is equal to 3 feet. One kilometer is 0.6214 miles. One meter is 1.094 yards, and 1 mile is 5,280 feet.

For volume, the first two in purple are the ones you need to memorize, and that's 1 milliliter equals 1 centimeter cubed, and 1 milliliter is equal to 1 cc. Next, we can say that 1 liter is equal to 1.057 quarts, 1 liter is 1 decimeter cubed, 1 fluid ounce is equal to 29.574 milliliters, and 1 gallon is 3.785 liters.

For mass, tablets can come in different types of masses. The most common one is when one tablet is equal to 254 milligrams. Now, if they're talking about a tablet and they don't give you the mass, usually they mean a 250-milligram tablet. But check the question. Sometimes the tablet may be a different mass and they'll tell you that new mass associated with it.

Next, we can say here that 1 pound is equal to approximately 454 grams, 1 ounce is 28.35 grams, and then finally, 1 kilogram is 2.205 pounds. So these are all types of common conversion factors that you'll come into contact with when doing different types of problems. Now remember, only the ones that are highlighted in purple, you should commit to memory.

So here in this example question, it says while packing for a trip to Spain, a traveler wishes to weigh their luggage to make sure it doesn't exceed 23 kilograms. Unfortunately, their bathroom scale, for some reason, can only weigh in ounces. What conversion factors could they use to determine the mass of their luggage? Alright. So in this question, they're telling us that we don't want to go over 23 kilograms. Kilograms is not attached to any other unit, so 23 must represent our given amount. We have 23 kilograms, and what we need to do here is we need to find a way of dealing with ounces. Okay. So we have to find a way of converting these kilograms into ounces. Because we're dealing with mass values, we know that the conversion factors we're gonna have to utilize have to do with mass in some way. Now we've kind of done this before when we did metric prefix conversions. We want to get rid of these kilograms. To get rid of these kilograms, we'd have to place them here on the bottom. And if we go to the conversion factors for mass, we see that kilograms are on this side, and we want to get to ounces. Right? Well, kilograms are attached to grams by way of metric prefix conversions, and we want to go to grams because grams are connected to ounces.

Here, we're not gonna solve for it. Here, we're just setting up the conversion factors necessary for us to isolate ounces. We're just getting the hang of this whole idea of conversion factors, given amounts, and their general positions in dimensional analysis. Don't worry about calculations yet. We're kind of slowly building our way up to questions like that. Alright. So kilograms go here, which will be connected to, to grams over here. Since this is a metric prefix conversion, remember that the coefficient of 1 is always associated or always next to the metric prefix. And remember, from our metric prefix multipliers, 1 kilo is 103. So we started out here by using our conversion factor. So now kilograms are gone. Now we have grams. Grams are connected to ounces. So we're gonna bring this conversion factor in. Right? So we're gonna say here, that grams go here, ounces go here, and the conversion factor up here says that 1 ounce is equal to 28.35 grams. Grams would cancel out and we'd be left with ounces. So for this question, the conversion factors that we'd have to use is this metric prefix conversion factor of 103 grams over 1 kilogram and 1 ounce over 28.35 grams. Those are the 2 conversion factors we'd utilize in order to safely convert kilograms into ounces. We see that in everyday processes, we can incorporate chemistry and we can incorporate these different types of mathematical operations. Now that we've seen this example, let's move on and continue our discussion on conversion factors and given amounts.