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\r\nAbsolute change<\/strong> measures the actual increase or decrease in a quantity and is expressed in the same units as the quantity itself. For instance, if a population grows from [latex]50,000[\/latex] to [latex]55,000[\/latex], the absolute change is [latex]5,000 [\/latex] people.<\/p>\r\n
Relative change<\/strong>, on the other hand, is concerned with the size of the absolute change in relation to the original quantity, providing a proportional perspective of change. It is often expressed as a percentage, showing how large the change is in comparison to the starting point. Continuing with the population example, a growth from [latex]50,000[\/latex] to [latex]55,000[\/latex] represents a relative change of [latex]10\\%[\/latex] of the original population.<\/p>\r\n These concepts are used in a variety of contexts, from the growth rate of investments to the speed of reactions in chemistry. They enable us to track progress, compare changes across different scales, and make predictions.<\/p>\r\n Given two quantities:<\/p>\r\n <\/p>\r\n <\/p>\r\n The starting quantity is called the base<\/strong> of the percent change.<\/p>\r\n<\/div>\r\n<\/section>\r\n The following examples demonstrate how different perspectives of the same information can aid or hinder the understanding of a situation.<\/p>\r\nabsolute and relative change<\/h3>\r\n
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\r\n[reveal-answer q=\"933757\"]Show Solution[\/reveal-answer]
\r\n[hidden-answer a=\"933757\"]When we make comparisons, we must ask first whether an absolute or relative comparison.
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\r\nThe absolute difference is [latex]215 \u2013 75 = 140[\/latex]. From this, we could say \u201cAlbertsons has [latex]140[\/latex] more stores than QFC.\u201d
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\r\nHowever, if you wrote this in an article or paper, that number does not mean much. The relative difference may be more meaningful.
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\r\nThere are two different relative changes we could calculate, depending on which store we use as the base:\r\n\r\n\r\n\t
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\r\nWe could also calculate the size of Albertsons relative to QFC:[latex]\\displaystyle\\frac{215}{75}=2.867[\/latex], which tells us Albertsons is [latex]2.867[\/latex] times the size of QFC.
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\r\nLikewise, we could calculate the size of QFC relative to Albertsons:[latex]\\displaystyle\\frac{75}{215}=0.349[\/latex], which tells us that QFC is [latex]34.9%[\/latex] of the size of Albertsons.[\/hidden-answer]<\/section>\r\n
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