{"id":2937,"date":"2016-07-22T16:55:46","date_gmt":"2016-07-22T16:55:46","guid":{"rendered":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/?post_type=chapter&#038;p=2937"},"modified":"2019-07-24T21:25:46","modified_gmt":"2019-07-24T21:25:46","slug":"read-proportions","status":"publish","type":"chapter","link":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/chapter\/read-proportions\/","title":{"raw":"Proportions","rendered":"Proportions"},"content":{"raw":"<div class=\"textbox learning-objectives\">\r\n<h3>Learning Outcome<\/h3>\r\n<ul>\r\n \t<li>Write proportions to solve proportion problems<\/li>\r\n<\/ul>\r\n<\/div>\r\n\r\n[caption id=\"attachment_5067\" align=\"aligncenter\" width=\"300\"]<img class=\"size-medium wp-image-5067\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/121\/2016\/07\/22162759\/Screen-Shot-2016-06-21-at-2.17.44-PM-300x186.png\" alt=\"Matryoshka, or nesting dolls.\" width=\"300\" height=\"186\" \/> Matryoshka or nesting dolls.[\/caption]\r\n\r\nA proportion is a statement that two ratios are equal to each other. There are many things that can be represented with ratios, including the actual distance on the earth that is represented on a map. In fact, you probably use proportional reasoning on a regular basis and do not realize it. For example, say you have volunteered to provide drinks for a community event. You are asked to bring enough drinks for\u00a0[latex]35-40[\/latex] people. At the store you see that drinks come in packages of\u00a0[latex]12[\/latex]. You multiply\u00a0[latex]12[\/latex] by\u00a0[latex]3[\/latex] and get\u00a0[latex]36[\/latex] - this may not be enough if\u00a0[latex]40[\/latex] people show up, so you decide to buy\u00a0[latex]4[\/latex] packages of drinks just to be sure.\r\n\r\nThis process\u00a0can also be expressed as a proportional equation and solved using mathematical principles. First, we can express the number of drinks in a package as a ratio:\r\n<p style=\"text-align: center;\">[latex]\\frac{12\\text{ drinks }}{1\\text{ package }}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">Then we express the number of people who we are buying drinks for as a ratio with\u00a0the unknown number of packages we need. We will use the maximum so we have enough.<\/p>\r\n<p style=\"text-align: center;\">[latex]\\frac{40\\text{ people }}{x\\text{ packages }}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">We can find out how many packages to purchase by setting the expressions equal to each other:<\/p>\r\n<p style=\"text-align: center;\">[latex]\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">To solve for x, we can use techniques for solving linear equations, or we can cross multiply as a shortcut.<\/p>\r\n<p style=\"text-align: center;\">[latex]\\begin{array}{l}\\,\\,\\,\\,\\,\\,\\,\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}\\\\\\text{}\\\\x\\cdot\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}\\cdot{x}\\\\\\text{}\\\\\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,12x=40\\\\\\text{}\\\\\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,x=\\frac{40}{12}=\\frac{10}{3}=3.33\\end{array}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">We can round up \u00a0to\u00a0[latex]4[\/latex] since it does not make sense to buy\u00a0[latex]0.33[\/latex] of a package of drinks. \u00a0Of course, you do not write out your thinking this way when you are in the grocery store, but doing so helps you to be able to apply the concepts to less obvious problems. In the following example, we will show how to use a proportion to find the number of people on the planet who do not have access to a toilet. Because, why not?<\/p>\r\n\r\n<div class=\"textbox exercises\">\r\n<h3>Example<\/h3>\r\nAs of March,\u00a0[latex]2016[\/latex] the world's population was estimated at\u00a0[latex]7.4[\/latex] billion.\u00a0[footnote] \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/.[\/footnote]. \u00a0According to <a href=\"http:\/\/water.org\/water-crisis\/water-sanitation-facts\/\">water.org<\/a>, [latex]1[\/latex] out of every\u00a0[latex]3[\/latex] people on the planet lives without access to a toilet. \u00a0Find the number of people on the planet that do not have access to a toilet.\r\n[reveal-answer q=\"54118\"]Show Solution[\/reveal-answer]\r\n[hidden-answer a=\"54118\"]\r\n\r\nWe can use a proportion to find the unknown number of people who live without a toilet since we are given that\u00a0[latex]1[\/latex] in\u00a0[latex]3[\/latex] do not have access, and we are given the population of the planet.\r\n\r\nWe know that\u00a0[latex]1[\/latex] out of every\u00a0[latex]3[\/latex] people do not have access, so we can write that as a ratio (fraction).\r\n<p style=\"text-align: center;\">[latex]\\frac{1}{3}[\/latex]<\/p>\r\nLet the number of people without access to a toilet be <em>x<\/em>. The ratio\u00a0of people with and without toilets is then\r\n<p style=\"text-align: center;\">[latex]\\frac{x}{7.4\\text{ billion }}[\/latex]<\/p>\r\nEquate the two ratios since they are representing the same fractional amount of the population.\r\n<p style=\"text-align: center;\">[latex]\\frac{1}{3}=\\frac{x}{7.4\\text{ billion }}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">Solve:<\/p>\r\n<p style=\"text-align: center;\">[latex]\\begin{array}{l}\\frac{1}{3}=\\frac{x}{7.4}\\\\\\text{}\\\\7.4\\cdot\\frac{1}{3}=\\frac{x}{7.4}\\cdot{7.4}\\\\\\text{}\\\\2.46=x\\end{array}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">The original units were billions of people, so our answer is [latex]2.46[\/latex] billion people do not have access to a toilet. Wow, that is a lot of people.<\/p>\r\n[\/hidden-answer]\r\n\r\n<\/div>\r\nIn the next example, we will use the length of a person's femur to estimate their height. This process is used in forensic science and anthropology. It has been found in many scientific studies\u00a0to be a very good estimate.\r\n<div class=\"textbox exercises\">\r\n<h3>Example<\/h3>\r\nIt has been shown that a person's height is proportional to\u00a0the length of their femur\u00a0[footnote]Obialor, Ambrose, Churchill Ihentuge, and Frank Akapuaka. \"Determination of Height Using Femur Length in Adult Population of Oguta Local Government Area of Imo State Nigeria.\" Federation of American Societies for Experimental Biology, April\u00a0[latex]2015[\/latex]. Accessed June\u00a0[latex]22, 2016[\/latex]. http:\/\/www.fasebj.org\/content\/29\/1_Supplement\/LB19.short.[\/footnote].\u00a0Given that a person who is\u00a0[latex]71[\/latex] inches tall has a femur length of\u00a0[latex]17.75[\/latex] inches, how tall is someone with a femur length of\u00a0[latex]16[\/latex] inches?\r\n[reveal-answer q=\"987898\"]Show Solution[\/reveal-answer]\r\n[hidden-answer a=\"987898\"]\r\n\r\nHeight and femur length are proportional for everyone, so we can define a ratio with the given height and femur length. We can then use this to write a proportion to find the unknown height.\r\n\r\nLet <em>x<\/em> be the unknown height. Define the ratio of femur length and height for both people using the given measurements.\r\n<p style=\"text-align: left;\">Person\u00a0[latex]1[\/latex]: \u00a0[latex]\\frac{\\text{femur length}}{\\text{height}}=\\frac{17.75\\text{ }\\text{inches}}{71\\text{ }\\text{inches}}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">Person\u00a0[latex]2[\/latex]: \u00a0[latex]\\frac{\\text{femur length}}{\\text{height}}=\\frac{16\\text{ }\\text{inches}}{x\\text{ }\\text{inches}}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">Equate the ratios since we are assuming height and femur length are proportional for everyone.<\/p>\r\n<p style=\"text-align: center;\">[latex]\\frac{17.75\\text{ }\\text{inches}}{71\\text{ }\\text{inches}}=\\frac{16\\text{ }\\text{inches}}{x\\text{ }\\text{inches}}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">\u00a0Solve by using the common denominator to clear fractions. The common denominator is [latex]71x[\/latex].<\/p>\r\n<p style=\"text-align: center;\">[latex]\\begin{array}{c}\\frac{17.75}{71}=\\frac{16}{x}\\\\\\\\71x\\cdot\\frac{17.75}{71}=\\frac{16}{x}\\cdot{71x}\\\\\\\\17.75\\cdot{x}=16\\cdot{71}\\\\\\\\17.75\\cdot{x}=1136\\\\\\\\x=\\frac{1136}{17.75}=64\\end{array}[\/latex]<\/p>\r\n<p style=\"text-align: left;\">The unknown height of person\u00a0[latex]2[\/latex] is\u00a0[latex]64[\/latex] inches. In general, we can simplify the fraction [latex]\\frac{17.75}{71}=0.25=\\frac{1}{4}[\/latex] to find a general rule for everyone. This would translate to saying a person's height is 4 times the length of their femur.<\/p>\r\n[\/hidden-answer]\r\n\r\n<\/div>\r\nAnother way to describe the ratio of femur length to height that we found in the last example is to say there is a\u00a0[latex]1:4[\/latex] ratio between femur length and height, or\u00a0[latex]1[\/latex] to\u00a0[latex]4[\/latex].\r\n\r\nRatios are also used in scale drawings. Scale drawings are enlarged or reduced drawings of objects, buildings, roads, and maps. Maps are smaller than what they represent and a drawing of dendritic cells in your brain is most likely larger than what it represents. The scale of the drawing is a ratio that represents a comparison of the length of the actual object and its representation in the drawing. The image below shows\u00a0a map of the United States with a scale of\u00a0[latex]1[\/latex] inch representing\u00a0[latex]557[\/latex] miles. We could write the scale factor as a fraction [latex]\\frac{1}{557}[\/latex] or as we did with the femur-height relationship,\u00a0[latex]1:557[\/latex].\r\n\r\n[caption id=\"attachment_5069\" align=\"aligncenter\" width=\"501\"]<img class=\"wp-image-5069\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/121\/2016\/07\/22162800\/Screen-Shot-2016-06-21-at-5.52.03-PM-300x184.png\" alt=\"map of the lower 48 states with a scale factor of 1 inch equals 557 miles.\" width=\"501\" height=\"307\" \/> A map of the United States with a scale factor.[\/caption]\r\n\r\nIn the next example, we will use the scale factor given in the image above to find the distance between Seattle, Washington and San Jose, California.\r\n<div class=\"textbox exercises\">\r\n<h3>Example<\/h3>\r\nGiven a scale factor of\u00a0[latex]1:557[\/latex] on a map of the US, if the distance from Seattle, WA to San Jose, CA is\u00a0[latex]1.5[\/latex] inches on the map, \u00a0define a proportion to find the actual distance between them.\r\n[reveal-answer q=\"936583\"]Show Solution[\/reveal-answer]\r\n[hidden-answer a=\"936583\"]\r\n\r\nWe need to define a proportion to solve for the unknown distance between Seattle and San Jose.\r\n\r\n<strong>\u00a0T<\/strong>he scale factor is\u00a0[latex]1:557[\/latex], and we will call the unknown distance x. The ratio of inches to miles is [latex]\\frac{1}{557}[\/latex].\r\n\r\nWe know the inches between the two cities, but we do not know miles, so the ratio that describes the distance between them is [latex]\\frac{1.5}{x}[\/latex].\r\n\r\nThe proportion that will help us solve this problem is [latex]\\frac{1}{557}=\\frac{1.5}{x}[\/latex].\r\n\r\nSolve using the common denominator [latex]557x[\/latex] to clear fractions.\r\n\r\n[latex]\\begin{array}{ccc}\\frac{1}{557}=\\frac{1.5}{x}\\\\557x\\cdot\\frac{1}{557}=\\frac{1.5}{x}\\cdot{557x}\\\\x=1.5\\cdot{557}=835.5\\end{array}[\/latex]\r\n\r\nWe used the scale factor\u00a0[latex]1:557[\/latex] to find an unknown distance between Seattle and San Jose. We also checked our answer of\u00a0[latex]835.5[\/latex] miles with Google maps and found that the distance is\u00a0[latex]839.9[\/latex] miles, so we did pretty well!\r\n\r\n[\/hidden-answer]\r\n\r\n<\/div>\r\nIn the next example, we will find a scale factor given the length between two cities on a map and their actual distance from each other.\r\n<div class=\"textbox exercises\">\r\n<h3>Example<\/h3>\r\nTwo cities are\u00a0[latex]2.5[\/latex] inches apart on a map. \u00a0Their actual distance from each other is\u00a0[latex]325[\/latex] miles. \u00a0Write a proportion to represent and solve for the scale factor for one inch of the map.\r\n[reveal-answer q=\"151234\"]Show Solution[\/reveal-answer]\r\n[hidden-answer a=\"151234\"]\r\n\r\nWe know that for each\u00a0[latex]2.5[\/latex] inches on the map, it represents\u00a0[latex]325[\/latex] actual miles. We are looking for the scale factor for one inch\u00a0of the map.\r\n\r\nThe ratio we want is [latex]\\frac{1}{x}[\/latex] where x is the actual distance represented by one inch on the map. \u00a0We know that for every\u00a0[latex]2.5[\/latex] inches, there are\u00a0[latex]325[\/latex] actual miles, so we can define that relationship as [latex]\\frac{2.5}{325}[\/latex]\r\n\r\nWe can use a proportion to equate the two ratios and solve for the unknown distance.\r\n<p style=\"text-align: center;\">[latex]\\begin{array}{ccc}\\frac{1}{x}=\\frac{2.5}{325}\\\\325x\\cdot\\frac{1}{x}=\\frac{2.5}{325}\\cdot{325x}\\\\325=2.5x\\\\x=130\\end{array}[\/latex]<\/p>\r\nThe scale factor for one inch on the map is\u00a0[latex]1:130[\/latex] or for every inch of map there are\u00a0[latex]130[\/latex] actual miles.\r\n\r\n[\/hidden-answer]\r\n\r\n<\/div>\r\nIn the video that follows, we present an example of using proportions to obtain the correct amount of medication for a patient as well as finding a desired mixture of coffees.\r\n\r\nhttps:\/\/www.youtube.com\/watch?v=yGid1a_x38g&amp;feature=youtu.be","rendered":"<div class=\"textbox learning-objectives\">\n<h3>Learning Outcome<\/h3>\n<ul>\n<li>Write proportions to solve proportion problems<\/li>\n<\/ul>\n<\/div>\n<div id=\"attachment_5067\" style=\"width: 310px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" aria-describedby=\"caption-attachment-5067\" class=\"size-medium wp-image-5067\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/121\/2016\/07\/22162759\/Screen-Shot-2016-06-21-at-2.17.44-PM-300x186.png\" alt=\"Matryoshka, or nesting dolls.\" width=\"300\" height=\"186\" \/><\/p>\n<p id=\"caption-attachment-5067\" class=\"wp-caption-text\">Matryoshka or nesting dolls.<\/p>\n<\/div>\n<p>A proportion is a statement that two ratios are equal to each other. There are many things that can be represented with ratios, including the actual distance on the earth that is represented on a map. In fact, you probably use proportional reasoning on a regular basis and do not realize it. For example, say you have volunteered to provide drinks for a community event. You are asked to bring enough drinks for\u00a0[latex]35-40[\/latex] people. At the store you see that drinks come in packages of\u00a0[latex]12[\/latex]. You multiply\u00a0[latex]12[\/latex] by\u00a0[latex]3[\/latex] and get\u00a0[latex]36[\/latex] &#8211; this may not be enough if\u00a0[latex]40[\/latex] people show up, so you decide to buy\u00a0[latex]4[\/latex] packages of drinks just to be sure.<\/p>\n<p>This process\u00a0can also be expressed as a proportional equation and solved using mathematical principles. First, we can express the number of drinks in a package as a ratio:<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{12\\text{ drinks }}{1\\text{ package }}[\/latex]<\/p>\n<p style=\"text-align: left;\">Then we express the number of people who we are buying drinks for as a ratio with\u00a0the unknown number of packages we need. We will use the maximum so we have enough.<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{40\\text{ people }}{x\\text{ packages }}[\/latex]<\/p>\n<p style=\"text-align: left;\">We can find out how many packages to purchase by setting the expressions equal to each other:<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}[\/latex]<\/p>\n<p style=\"text-align: left;\">To solve for x, we can use techniques for solving linear equations, or we can cross multiply as a shortcut.<\/p>\n<p style=\"text-align: center;\">[latex]\\begin{array}{l}\\,\\,\\,\\,\\,\\,\\,\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}\\\\\\text{}\\\\x\\cdot\\frac{12\\text{ drinks }}{1\\text{ package }}=\\frac{40\\text{ people }}{x\\text{ packages }}\\cdot{x}\\\\\\text{}\\\\\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,12x=40\\\\\\text{}\\\\\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,\\,x=\\frac{40}{12}=\\frac{10}{3}=3.33\\end{array}[\/latex]<\/p>\n<p style=\"text-align: left;\">We can round up \u00a0to\u00a0[latex]4[\/latex] since it does not make sense to buy\u00a0[latex]0.33[\/latex] of a package of drinks. \u00a0Of course, you do not write out your thinking this way when you are in the grocery store, but doing so helps you to be able to apply the concepts to less obvious problems. In the following example, we will show how to use a proportion to find the number of people on the planet who do not have access to a toilet. Because, why not?<\/p>\n<div class=\"textbox exercises\">\n<h3>Example<\/h3>\n<p>As of March,\u00a0[latex]2016[\/latex] the world&#8217;s population was estimated at\u00a0[latex]7.4[\/latex] billion.\u00a0<a class=\"footnote\" title=\"&quot;Current World Population.&quot; World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. &quot;Current World Population.&quot; World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. &quot;Current World Population.&quot; World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/.\" id=\"return-footnote-2937-1\" href=\"#footnote-2937-1\" aria-label=\"Footnote 1\"><sup class=\"footnote\">[1]<\/sup><\/a>. \u00a0According to <a href=\"http:\/\/water.org\/water-crisis\/water-sanitation-facts\/\">water.org<\/a>, [latex]1[\/latex] out of every\u00a0[latex]3[\/latex] people on the planet lives without access to a toilet. \u00a0Find the number of people on the planet that do not have access to a toilet.<\/p>\n<div class=\"qa-wrapper\" style=\"display: block\"><span class=\"show-answer collapsed\" style=\"cursor: pointer\" data-target=\"q54118\">Show Solution<\/span><\/p>\n<div id=\"q54118\" class=\"hidden-answer\" style=\"display: none\">\n<p>We can use a proportion to find the unknown number of people who live without a toilet since we are given that\u00a0[latex]1[\/latex] in\u00a0[latex]3[\/latex] do not have access, and we are given the population of the planet.<\/p>\n<p>We know that\u00a0[latex]1[\/latex] out of every\u00a0[latex]3[\/latex] people do not have access, so we can write that as a ratio (fraction).<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{1}{3}[\/latex]<\/p>\n<p>Let the number of people without access to a toilet be <em>x<\/em>. The ratio\u00a0of people with and without toilets is then<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{x}{7.4\\text{ billion }}[\/latex]<\/p>\n<p>Equate the two ratios since they are representing the same fractional amount of the population.<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{1}{3}=\\frac{x}{7.4\\text{ billion }}[\/latex]<\/p>\n<p style=\"text-align: left;\">Solve:<\/p>\n<p style=\"text-align: center;\">[latex]\\begin{array}{l}\\frac{1}{3}=\\frac{x}{7.4}\\\\\\text{}\\\\7.4\\cdot\\frac{1}{3}=\\frac{x}{7.4}\\cdot{7.4}\\\\\\text{}\\\\2.46=x\\end{array}[\/latex]<\/p>\n<p style=\"text-align: left;\">The original units were billions of people, so our answer is [latex]2.46[\/latex] billion people do not have access to a toilet. Wow, that is a lot of people.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<p>In the next example, we will use the length of a person&#8217;s femur to estimate their height. This process is used in forensic science and anthropology. It has been found in many scientific studies\u00a0to be a very good estimate.<\/p>\n<div class=\"textbox exercises\">\n<h3>Example<\/h3>\n<p>It has been shown that a person&#8217;s height is proportional to\u00a0the length of their femur\u00a0<a class=\"footnote\" title=\"Obialor, Ambrose, Churchill Ihentuge, and Frank Akapuaka. &quot;Determination of Height Using Femur Length in Adult Population of Oguta Local Government Area of Imo State Nigeria.&quot; Federation of American Societies for Experimental Biology, April\u00a0[latex]2015[\/latex]. Accessed June\u00a0[latex]22, 2016[\/latex]. http:\/\/www.fasebj.org\/content\/29\/1_Supplement\/LB19.short.\" id=\"return-footnote-2937-2\" href=\"#footnote-2937-2\" aria-label=\"Footnote 2\"><sup class=\"footnote\">[2]<\/sup><\/a>.\u00a0Given that a person who is\u00a0[latex]71[\/latex] inches tall has a femur length of\u00a0[latex]17.75[\/latex] inches, how tall is someone with a femur length of\u00a0[latex]16[\/latex] inches?<\/p>\n<div class=\"qa-wrapper\" style=\"display: block\"><span class=\"show-answer collapsed\" style=\"cursor: pointer\" data-target=\"q987898\">Show Solution<\/span><\/p>\n<div id=\"q987898\" class=\"hidden-answer\" style=\"display: none\">\n<p>Height and femur length are proportional for everyone, so we can define a ratio with the given height and femur length. We can then use this to write a proportion to find the unknown height.<\/p>\n<p>Let <em>x<\/em> be the unknown height. Define the ratio of femur length and height for both people using the given measurements.<\/p>\n<p style=\"text-align: left;\">Person\u00a0[latex]1[\/latex]: \u00a0[latex]\\frac{\\text{femur length}}{\\text{height}}=\\frac{17.75\\text{ }\\text{inches}}{71\\text{ }\\text{inches}}[\/latex]<\/p>\n<p style=\"text-align: left;\">Person\u00a0[latex]2[\/latex]: \u00a0[latex]\\frac{\\text{femur length}}{\\text{height}}=\\frac{16\\text{ }\\text{inches}}{x\\text{ }\\text{inches}}[\/latex]<\/p>\n<p style=\"text-align: left;\">Equate the ratios since we are assuming height and femur length are proportional for everyone.<\/p>\n<p style=\"text-align: center;\">[latex]\\frac{17.75\\text{ }\\text{inches}}{71\\text{ }\\text{inches}}=\\frac{16\\text{ }\\text{inches}}{x\\text{ }\\text{inches}}[\/latex]<\/p>\n<p style=\"text-align: left;\">\u00a0Solve by using the common denominator to clear fractions. The common denominator is [latex]71x[\/latex].<\/p>\n<p style=\"text-align: center;\">[latex]\\begin{array}{c}\\frac{17.75}{71}=\\frac{16}{x}\\\\\\\\71x\\cdot\\frac{17.75}{71}=\\frac{16}{x}\\cdot{71x}\\\\\\\\17.75\\cdot{x}=16\\cdot{71}\\\\\\\\17.75\\cdot{x}=1136\\\\\\\\x=\\frac{1136}{17.75}=64\\end{array}[\/latex]<\/p>\n<p style=\"text-align: left;\">The unknown height of person\u00a0[latex]2[\/latex] is\u00a0[latex]64[\/latex] inches. In general, we can simplify the fraction [latex]\\frac{17.75}{71}=0.25=\\frac{1}{4}[\/latex] to find a general rule for everyone. This would translate to saying a person&#8217;s height is 4 times the length of their femur.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<p>Another way to describe the ratio of femur length to height that we found in the last example is to say there is a\u00a0[latex]1:4[\/latex] ratio between femur length and height, or\u00a0[latex]1[\/latex] to\u00a0[latex]4[\/latex].<\/p>\n<p>Ratios are also used in scale drawings. Scale drawings are enlarged or reduced drawings of objects, buildings, roads, and maps. Maps are smaller than what they represent and a drawing of dendritic cells in your brain is most likely larger than what it represents. The scale of the drawing is a ratio that represents a comparison of the length of the actual object and its representation in the drawing. The image below shows\u00a0a map of the United States with a scale of\u00a0[latex]1[\/latex] inch representing\u00a0[latex]557[\/latex] miles. We could write the scale factor as a fraction [latex]\\frac{1}{557}[\/latex] or as we did with the femur-height relationship,\u00a0[latex]1:557[\/latex].<\/p>\n<div id=\"attachment_5069\" style=\"width: 511px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" aria-describedby=\"caption-attachment-5069\" class=\"wp-image-5069\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/121\/2016\/07\/22162800\/Screen-Shot-2016-06-21-at-5.52.03-PM-300x184.png\" alt=\"map of the lower 48 states with a scale factor of 1 inch equals 557 miles.\" width=\"501\" height=\"307\" \/><\/p>\n<p id=\"caption-attachment-5069\" class=\"wp-caption-text\">A map of the United States with a scale factor.<\/p>\n<\/div>\n<p>In the next example, we will use the scale factor given in the image above to find the distance between Seattle, Washington and San Jose, California.<\/p>\n<div class=\"textbox exercises\">\n<h3>Example<\/h3>\n<p>Given a scale factor of\u00a0[latex]1:557[\/latex] on a map of the US, if the distance from Seattle, WA to San Jose, CA is\u00a0[latex]1.5[\/latex] inches on the map, \u00a0define a proportion to find the actual distance between them.<\/p>\n<div class=\"qa-wrapper\" style=\"display: block\"><span class=\"show-answer collapsed\" style=\"cursor: pointer\" data-target=\"q936583\">Show Solution<\/span><\/p>\n<div id=\"q936583\" class=\"hidden-answer\" style=\"display: none\">\n<p>We need to define a proportion to solve for the unknown distance between Seattle and San Jose.<\/p>\n<p><strong>\u00a0T<\/strong>he scale factor is\u00a0[latex]1:557[\/latex], and we will call the unknown distance x. The ratio of inches to miles is [latex]\\frac{1}{557}[\/latex].<\/p>\n<p>We know the inches between the two cities, but we do not know miles, so the ratio that describes the distance between them is [latex]\\frac{1.5}{x}[\/latex].<\/p>\n<p>The proportion that will help us solve this problem is [latex]\\frac{1}{557}=\\frac{1.5}{x}[\/latex].<\/p>\n<p>Solve using the common denominator [latex]557x[\/latex] to clear fractions.<\/p>\n<p>[latex]\\begin{array}{ccc}\\frac{1}{557}=\\frac{1.5}{x}\\\\557x\\cdot\\frac{1}{557}=\\frac{1.5}{x}\\cdot{557x}\\\\x=1.5\\cdot{557}=835.5\\end{array}[\/latex]<\/p>\n<p>We used the scale factor\u00a0[latex]1:557[\/latex] to find an unknown distance between Seattle and San Jose. We also checked our answer of\u00a0[latex]835.5[\/latex] miles with Google maps and found that the distance is\u00a0[latex]839.9[\/latex] miles, so we did pretty well!<\/p>\n<\/div>\n<\/div>\n<\/div>\n<p>In the next example, we will find a scale factor given the length between two cities on a map and their actual distance from each other.<\/p>\n<div class=\"textbox exercises\">\n<h3>Example<\/h3>\n<p>Two cities are\u00a0[latex]2.5[\/latex] inches apart on a map. \u00a0Their actual distance from each other is\u00a0[latex]325[\/latex] miles. \u00a0Write a proportion to represent and solve for the scale factor for one inch of the map.<\/p>\n<div class=\"qa-wrapper\" style=\"display: block\"><span class=\"show-answer collapsed\" style=\"cursor: pointer\" data-target=\"q151234\">Show Solution<\/span><\/p>\n<div id=\"q151234\" class=\"hidden-answer\" style=\"display: none\">\n<p>We know that for each\u00a0[latex]2.5[\/latex] inches on the map, it represents\u00a0[latex]325[\/latex] actual miles. We are looking for the scale factor for one inch\u00a0of the map.<\/p>\n<p>The ratio we want is [latex]\\frac{1}{x}[\/latex] where x is the actual distance represented by one inch on the map. \u00a0We know that for every\u00a0[latex]2.5[\/latex] inches, there are\u00a0[latex]325[\/latex] actual miles, so we can define that relationship as [latex]\\frac{2.5}{325}[\/latex]<\/p>\n<p>We can use a proportion to equate the two ratios and solve for the unknown distance.<\/p>\n<p style=\"text-align: center;\">[latex]\\begin{array}{ccc}\\frac{1}{x}=\\frac{2.5}{325}\\\\325x\\cdot\\frac{1}{x}=\\frac{2.5}{325}\\cdot{325x}\\\\325=2.5x\\\\x=130\\end{array}[\/latex]<\/p>\n<p>The scale factor for one inch on the map is\u00a0[latex]1:130[\/latex] or for every inch of map there are\u00a0[latex]130[\/latex] actual miles.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<p>In the video that follows, we present an example of using proportions to obtain the correct amount of medication for a patient as well as finding a desired mixture of coffees.<\/p>\n<p><iframe loading=\"lazy\" id=\"oembed-1\" title=\"Ex: Proportion Applications - Mixtures\" width=\"500\" height=\"281\" src=\"https:\/\/www.youtube.com\/embed\/yGid1a_x38g?feature=oembed&#38;rel=0\" frameborder=\"0\" allowfullscreen=\"allowfullscreen\"><\/iframe><\/p>\n\n\t\t\t <section class=\"citations-section\" role=\"contentinfo\">\n\t\t\t <h3>Candela Citations<\/h3>\n\t\t\t\t\t <div>\n\t\t\t\t\t\t <div id=\"citation-list-2937\">\n\t\t\t\t\t\t\t <div class=\"licensing\"><div class=\"license-attribution-dropdown-subheading\">CC licensed content, Original<\/div><ul class=\"citation-list\"><li>Screenshot: Matroyshka, or nesting dolls.. <strong>Provided by<\/strong>: Lumen Learning. <strong>License<\/strong>: <em><a target=\"_blank\" rel=\"license\" href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY: Attribution<\/a><\/em><\/li><li>Screenshot: map with scale factor. <strong>Provided by<\/strong>: Lumen Learning. <strong>License<\/strong>: <em><a target=\"_blank\" rel=\"license\" href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY: Attribution<\/a><\/em><\/li><li>Revision and Adaptation. <strong>Provided by<\/strong>: Lumen Learning. <strong>License<\/strong>: <em><a target=\"_blank\" rel=\"license\" href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY: Attribution<\/a><\/em><\/li><\/ul><div class=\"license-attribution-dropdown-subheading\">CC licensed content, Shared previously<\/div><ul class=\"citation-list\"><li>Unit 15: Rational Expressions, from Developmental Math: An Open Program. <strong>Provided by<\/strong>: Monterey Institute of Technology and Education. <strong>Located at<\/strong>: <a target=\"_blank\" href=\"http:\/\/nrocnetwork.org\/dm-opentext\">http:\/\/nrocnetwork.org\/dm-opentext<\/a>. <strong>License<\/strong>: <em><a target=\"_blank\" rel=\"license\" href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY: Attribution<\/a><\/em><\/li><li>Ex: Proportion Applications - Mixtures  . <strong>Authored by<\/strong>: James Sousa (Mathispower4u.com) . <strong>Located at<\/strong>: <a target=\"_blank\" href=\"https:\/\/youtu.be\/yGid1a_x38g\">https:\/\/youtu.be\/yGid1a_x38g<\/a>. <strong>License<\/strong>: <em><a target=\"_blank\" rel=\"license\" href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY: Attribution<\/a><\/em><\/li><\/ul><\/div>\n\t\t\t\t\t\t <\/div>\n\t\t\t\t\t <\/div>\n\t\t\t <\/section><hr class=\"before-footnotes clear\" \/><div class=\"footnotes\"><ol><li id=\"footnote-2937-1\"> \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. \"Current World Population.\" World Population Clock:\u00a0[latex]7.4[\/latex] Billion People\u00a0[latex](2016)[\/latex]. Accessed June\u00a0[latex]21, 2016[\/latex]. http:\/\/www.worldometers.info\/world-population\/. <a href=\"#return-footnote-2937-1\" class=\"return-footnote\" aria-label=\"Return to footnote 1\">&crarr;<\/a><\/li><li id=\"footnote-2937-2\">Obialor, Ambrose, Churchill Ihentuge, and Frank Akapuaka. \"Determination of Height Using Femur Length in Adult Population of Oguta Local Government Area of Imo State Nigeria.\" Federation of American Societies for Experimental Biology, April\u00a0[latex]2015[\/latex]. Accessed June\u00a0[latex]22, 2016[\/latex]. http:\/\/www.fasebj.org\/content\/29\/1_Supplement\/LB19.short. <a href=\"#return-footnote-2937-2\" class=\"return-footnote\" aria-label=\"Return to footnote 2\">&crarr;<\/a><\/li><\/ol><\/div>","protected":false},"author":21,"menu_order":9,"template":"","meta":{"_candela_citation":"[{\"type\":\"original\",\"description\":\"Screenshot: Matroyshka, or nesting dolls.\",\"author\":\"\",\"organization\":\"Lumen Learning\",\"url\":\"\",\"project\":\"\",\"license\":\"cc-by\",\"license_terms\":\"\"},{\"type\":\"original\",\"description\":\"Screenshot: map with scale factor\",\"author\":\"\",\"organization\":\"Lumen Learning\",\"url\":\"\",\"project\":\"\",\"license\":\"cc-by\",\"license_terms\":\"\"},{\"type\":\"original\",\"description\":\"Revision and Adaptation\",\"author\":\"\",\"organization\":\"Lumen Learning\",\"url\":\"\",\"project\":\"\",\"license\":\"cc-by\",\"license_terms\":\"\"},{\"type\":\"cc\",\"description\":\"Unit 15: Rational Expressions, from Developmental Math: An Open Program\",\"author\":\"\",\"organization\":\"Monterey Institute of Technology and Education\",\"url\":\"http:\/\/nrocnetwork.org\/dm-opentext\",\"project\":\"\",\"license\":\"cc-by\",\"license_terms\":\"\"},{\"type\":\"cc\",\"description\":\"Ex: Proportion Applications - Mixtures  \",\"author\":\"James Sousa (Mathispower4u.com) \",\"organization\":\"\",\"url\":\"https:\/\/youtu.be\/yGid1a_x38g\",\"project\":\"\",\"license\":\"cc-by\",\"license_terms\":\"\"}]","CANDELA_OUTCOMES_GUID":"0beeb7cc-7f97-4e6f-ae23-3c191a752f25","pb_show_title":"on","pb_short_title":"","pb_subtitle":"","pb_authors":[],"pb_section_license":""},"chapter-type":[],"contributor":[],"license":[],"class_list":["post-2937","chapter","type-chapter","status-publish","hentry"],"part":876,"_links":{"self":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapters\/2937","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapters"}],"about":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/wp\/v2\/types\/chapter"}],"author":[{"embeddable":true,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/wp\/v2\/users\/21"}],"version-history":[{"count":22,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapters\/2937\/revisions"}],"predecessor-version":[{"id":5457,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapters\/2937\/revisions\/5457"}],"part":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/parts\/876"}],"metadata":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapters\/2937\/metadata\/"}],"wp:attachment":[{"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/wp\/v2\/media?parent=2937"}],"wp:term":[{"taxonomy":"chapter-type","embeddable":true,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/pressbooks\/v2\/chapter-type?post=2937"},{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/wp\/v2\/contributor?post=2937"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/courses.lumenlearning.com\/intermediatealgebra\/wp-json\/wp\/v2\/license?post=2937"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}