{"appState":{"pageLoadApiCallsStatus":true},"articleState":{"article":{"headers":{"creationTime":"2016-03-26T20:18:18+00:00","modifiedTime":"2016-03-26T20:18:18+00:00","timestamp":"2022-09-14T18:08:43+00:00"},"data":{"breadcrumbs":[{"name":"Academics & The Arts","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33662"},"slug":"academics-the-arts","categoryId":33662},{"name":"Math","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33720"},"slug":"math","categoryId":33720},{"name":"Trigonometry","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33729"},"slug":"trigonometry","categoryId":33729}],"title":"How to Work Both Sides of a Trig Identity","strippedTitle":"how to work both sides of a trig identity","slug":"how-to-work-both-sides-of-a-trig-identity","canonicalUrl":"","seo":{"metaDescription":"With a trigonometry identity, working on both sides of the equation is even more fun than working on both sides of an algebraic equation. In algebra, you can mu","noIndex":0,"noFollow":0},"content":"<p>With a trigonometry identity, working on both sides of the equation is even more fun than working on both sides of an <em>algebraic</em> equation. In algebra, you can multiply each side by the same number, square both sides, add or subtract the same thing to each side, and so on. When you solve trig identities and equations, you can use all those algebra rules <em>plus </em>you can do substitutions with the various trig identities when you need them. You can even insert a different identity on each side — the one big advantage of working on both sides of a trig identity.</p>\n<p>This first example is rather basic, but it gets the idea across. Solve the identity</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281765.image0.png\" width=\"164\" height=\"41\" alt=\"image0.png\"/></p>\n<p>by working both sides.</p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Change the functions that aren’t one of the three basic functions by using their reciprocal identities.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281766.image1.png\" width=\"184\" height=\"61\" alt=\"image1.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the two fractions on the left by flipping the denominators and multiplying them by their numerators.</p>\n<p class=\"child-para\">Then multiply the two factors on the right together.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281767.image2.png\" width=\"207\" height=\"119\" alt=\"image2.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the sum on the left by using the Pythagorean identity.</p>\n<p class=\"child-para\">You end up with 1 = 1.</p>\n</li>\n</ol>\n<p>In the next example, you change everything to sines and cosines. Prove the identity</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281768.image3.png\" width=\"133\" height=\"41\" alt=\"image3.png\"/></p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Change the functions to their equivalences by using the reciprocal and ratio identities.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281769.image4.png\" width=\"175\" height=\"57\" alt=\"image4.png\"/> </li>\n<li>\n<p class=\"first-para\">On the left, flip the denominator and multiply it by the numerator.</p>\n<p class=\"child-para\">On the right, multiply each fraction by a fraction equal to 1 (by using the other fraction’s denominator) to get common denominators for all the fractions.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281770.image5.png\" width=\"292\" height=\"41\" alt=\"image5.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the multiplied fractions.</p>\n<p class=\"child-para\">Add the two fractions on the right together.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281771.image6.png\" width=\"232\" height=\"96\" alt=\"image6.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the numerator on the right with the value from the Pythagorean identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281772.image7.png\" width=\"152\" height=\"41\" alt=\"image7.png\"/> </li>\n</ol>\n<p>This last example requires a little creativity to get the job done. But working on both sides still works best when showing that the following is an identity:</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281773.image8.png\" width=\"217\" height=\"41\" alt=\"image8.png\"/></p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Split up the fraction on the left by writing each term in the numerator over the denominator.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281774.image9.png\" width=\"248\" height=\"41\" alt=\"image9.png\"/> </li>\n<li>\n<p class=\"first-para\">Reduce the second fraction to 1.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281775.image10.png\" width=\"219\" height=\"41\" alt=\"image10.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the csc<sup>2</sup> on the right with its equivalent by using the Pythagorean identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281776.image11.png\" width=\"244\" height=\"41\" alt=\"image11.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the terms on the right — two are opposites of one another.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281777.image12.png\" width=\"240\" height=\"67\" alt=\"image12.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the fraction on the left by using the reciprocal identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281778.image13.png\" width=\"124\" height=\"17\" alt=\"image13.png\"/> </li>\n</ol>","description":"<p>With a trigonometry identity, working on both sides of the equation is even more fun than working on both sides of an <em>algebraic</em> equation. In algebra, you can multiply each side by the same number, square both sides, add or subtract the same thing to each side, and so on. When you solve trig identities and equations, you can use all those algebra rules <em>plus </em>you can do substitutions with the various trig identities when you need them. You can even insert a different identity on each side — the one big advantage of working on both sides of a trig identity.</p>\n<p>This first example is rather basic, but it gets the idea across. Solve the identity</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281765.image0.png\" width=\"164\" height=\"41\" alt=\"image0.png\"/></p>\n<p>by working both sides.</p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Change the functions that aren’t one of the three basic functions by using their reciprocal identities.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281766.image1.png\" width=\"184\" height=\"61\" alt=\"image1.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the two fractions on the left by flipping the denominators and multiplying them by their numerators.</p>\n<p class=\"child-para\">Then multiply the two factors on the right together.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281767.image2.png\" width=\"207\" height=\"119\" alt=\"image2.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the sum on the left by using the Pythagorean identity.</p>\n<p class=\"child-para\">You end up with 1 = 1.</p>\n</li>\n</ol>\n<p>In the next example, you change everything to sines and cosines. Prove the identity</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281768.image3.png\" width=\"133\" height=\"41\" alt=\"image3.png\"/></p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Change the functions to their equivalences by using the reciprocal and ratio identities.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281769.image4.png\" width=\"175\" height=\"57\" alt=\"image4.png\"/> </li>\n<li>\n<p class=\"first-para\">On the left, flip the denominator and multiply it by the numerator.</p>\n<p class=\"child-para\">On the right, multiply each fraction by a fraction equal to 1 (by using the other fraction’s denominator) to get common denominators for all the fractions.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281770.image5.png\" width=\"292\" height=\"41\" alt=\"image5.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the multiplied fractions.</p>\n<p class=\"child-para\">Add the two fractions on the right together.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281771.image6.png\" width=\"232\" height=\"96\" alt=\"image6.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the numerator on the right with the value from the Pythagorean identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281772.image7.png\" width=\"152\" height=\"41\" alt=\"image7.png\"/> </li>\n</ol>\n<p>This last example requires a little creativity to get the job done. But working on both sides still works best when showing that the following is an identity:</p>\n<p><img src=\"https://www.dummies.com/wp-content/uploads/281773.image8.png\" width=\"217\" height=\"41\" alt=\"image8.png\"/></p>\n<ol class=\"level-one\">\n<li>\n<p class=\"first-para\">Split up the fraction on the left by writing each term in the numerator over the denominator.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281774.image9.png\" width=\"248\" height=\"41\" alt=\"image9.png\"/> </li>\n<li>\n<p class=\"first-para\">Reduce the second fraction to 1.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281775.image10.png\" width=\"219\" height=\"41\" alt=\"image10.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the csc<sup>2</sup> on the right with its equivalent by using the Pythagorean identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281776.image11.png\" width=\"244\" height=\"41\" alt=\"image11.png\"/> </li>\n<li>\n<p class=\"first-para\">Simplify the terms on the right — two are opposites of one another.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281777.image12.png\" width=\"240\" height=\"67\" alt=\"image12.png\"/> </li>\n<li>\n<p class=\"first-para\">Replace the fraction on the left by using the reciprocal identity.</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/281778.image13.png\" width=\"124\" height=\"17\" alt=\"image13.png\"/> </li>\n</ol>","blurb":"","authors":[{"authorId":8985,"name":"Mary Jane Sterling","slug":"mary-jane-sterling","description":" <p><b>Mary Jane Sterling</b> is the author of <i>Algebra I For Dummies, Algebra Workbook For Dummies,</i> and many other <i>For Dummies</i> books. She taught at Bradley University in Peoria, Illinois for more than 30 years, teaching algebra, business calculus, geometry, and finite mathematics. ","hasArticle":false,"_links":{"self":"https://dummies-api.dummies.com/v2/authors/8985"}}],"primaryCategoryTaxonomy":{"categoryId":33729,"title":"Trigonometry","slug":"trigonometry","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33729"}},"secondaryCategoryTaxonomy":{"categoryId":0,"title":null,"slug":null,"_links":null},"tertiaryCategoryTaxonomy":{"categoryId":0,"title":null,"slug":null,"_links":null},"trendingArticles":null,"inThisArticle":[],"relatedArticles":{"fromBook":[],"fromCategory":[{"articleId":207754,"title":"Trigonometry For Dummies Cheat Sheet","slug":"trigonometry-for-dummies-cheat-sheet","categoryList":["academics-the-arts","math","trigonometry"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/207754"}},{"articleId":203563,"title":"How to Recognize Basic Trig Graphs","slug":"how-to-recognize-basic-trig-graphs","categoryList":["academics-the-arts","math","trigonometry"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/203563"}},{"articleId":203561,"title":"How to Create a Table of Trigonometry Functions","slug":"how-to-create-a-table-of-trigonometry-functions","categoryList":["academics-the-arts","math","trigonometry"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/203561"}},{"articleId":199411,"title":"Defining the Radian in Trigonometry","slug":"defining-the-radian-in-trigonometry","categoryList":["academics-the-arts","math","trigonometry"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/199411"}},{"articleId":187511,"title":"How to Use the Double-Angle Identity for Sine","slug":"how-to-use-the-double-angle-identity-for-sine","categoryList":["academics-the-arts","math","trigonometry"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/187511"}}]},"hasRelatedBookFromSearch":true,"relatedBook":{"bookId":282641,"slug":"trigonometry-workbook-for-dummies","isbn":"9780764587818","categoryList":["academics-the-arts","math","trigonometry"],"amazon":{"default":"https://www.amazon.com/gp/product/0764587811/ref=as_li_tl?ie=UTF8&tag=wiley01-20","ca":"https://www.amazon.ca/gp/product/0764587811/ref=as_li_tl?ie=UTF8&tag=wiley01-20","indigo_ca":"http://www.tkqlhce.com/click-9208661-13710633?url=https://www.chapters.indigo.ca/en-ca/books/product/0764587811-item.html&cjsku=978111945484","gb":"https://www.amazon.co.uk/gp/product/0764587811/ref=as_li_tl?ie=UTF8&tag=wiley01-20","de":"https://www.amazon.de/gp/product/0764587811/ref=as_li_tl?ie=UTF8&tag=wiley01-20"},"image":{"src":"https://www.dummies.com/covers/9780764587818.jpg","width":250,"height":350},"title":"Trigonometry Workbook For Dummies","testBankPinActivationLink":"","bookOutOfPrint":false,"authorsInfo":"\n <p><p><b><b data-author-id=\"8985\">Mary Jane Sterling</b></b> was a professor of mathematics at Bradley University. She taught for more than 35 years and continues to teach via distance learning. Sterling is the author of many Dummies math titles, including <i>Pre-Calculus For Dummies</i>. She is a graduate of the University of New Hampshire with a master’s degree in mathematics education.</p>","authors":[{"authorId":8985,"name":"Mary Jane Sterling","slug":"mary-jane-sterling","description":" <p><b>Mary Jane Sterling</b> was a professor of mathematics at Bradley University. She taught for more than 35 years and continues to teach via distance learning. Sterling is the author of many Dummies math titles, including <i>Pre-Calculus For Dummies</i>. She is a graduate of the University of New Hampshire with a master’s degree in mathematics education. 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Category","mainCategoryUrl":"/category/articles/level-0-category-0"}}},"navigationCategoriesLoadedStatus":"success"},"searchState":{"searchList":[],"searchStatus":"initial","relatedArticlesList":{"term":"186942","count":5,"total":366,"topCategory":0,"items":[{"objectType":"article","id":186942,"data":{"title":"How to Work Both Sides of a Trig Identity","slug":"how-to-work-both-sides-of-a-trig-identity","update_time":"2016-03-26T20:18:18+00:00","object_type":"article","image":null,"breadcrumbs":[{"name":"Academics & The Arts","slug":"academics-the-arts","categoryId":33662},{"name":"Math","slug":"math","categoryId":33720},{"name":"Trigonometry","slug":"trigonometry","categoryId":33729}],"description":"With a trigonometry identity, working on both sides of the equation is even more fun than working on both sides of an algebraic equation. In algebra, you can multiply each side by the same number, square both sides, add or subtract the same thing to each side, and so on. When you solve trig identities and equations, you can use all those algebra rules plus you can do substitutions with the various trig identities when you need them. You can even insert a different identity on each side — the one big advantage of working on both sides of a trig identity.\nThis first example is rather basic, but it gets the idea across. Solve the identity\n\nby working both sides.\n\n\nChange the functions that aren’t one of the three basic functions by using their reciprocal identities.\n \n\nSimplify the two fractions on the left by flipping the denominators and multiplying them by their numerators.\nThen multiply the two factors on the right together.\n \n\nReplace the sum on the left by using the Pythagorean identity.\nYou end up with 1 = 1.\n\n\nIn the next example, you change everything to sines and cosines. Prove the identity\n\n\n\nChange the functions to their equivalences by using the reciprocal and ratio identities.\n \n\nOn the left, flip the denominator and multiply it by the numerator.\nOn the right, multiply each fraction by a fraction equal to 1 (by using the other fraction’s denominator) to get common denominators for all the fractions.\n \n\nSimplify the multiplied fractions.\nAdd the two fractions on the right together.\n \n\nReplace the numerator on the right with the value from the Pythagorean identity.\n \n\nThis last example requires a little creativity to get the job done. But working on both sides still works best when showing that the following is an identity:\n\n\n\nSplit up the fraction on the left by writing each term in the numerator over the denominator.\n \n\nReduce the second fraction to 1.\n \n\nReplace the csc2 on the right with its equivalent by using the Pythagorean identity.\n \n\nSimplify the terms on the right — two are opposites of one another.\n \n\nReplace the fraction on the left by using the reciprocal identity.\n \n","item_vector":null},"titleHighlight":null,"descriptionHighlights":null,"headers":null},{"objectType":"article","id":187241,"data":{"title":"How to Square Both Sides to Solve a Trigonometry Identity Problem","slug":"how-to-square-both-sides-to-solve-a-trigonometry-identity-problem","update_time":"2016-03-26T20:21:16+00:00","object_type":"article","image":null,"breadcrumbs":[{"name":"Academics & The Arts","slug":"academics-the-arts","categoryId":33662},{"name":"Math","slug":"math","categoryId":33720},{"name":"Trigonometry","slug":"trigonometry","categoryId":33729}],"description":"When you work on both sides of a trig identity at the same time, you may sometimes need to square both sides. You generally use this technique when one side or the other (or both) has a radical. This method is also good to use when you’re solving some types of trig equations. Squaring both sides has benefits twofold: It gets rid of radicals, and it creates terms that can be part of one of the Pythagorean identities. The Pythagorean identities have wonderful substitutions.\nThis first example has only one radical, and it’s on the right side. Solve the identity\n\n\n\nSquare both sides of the identity.\nBe sure to expand the squared binomial on the left correctly.\n \n\nRearrange the terms in the numerator.\n \n\nReplace 1 + cot2 x with its equivalent by using the Pythagorean identity.\n \n\nSplit up the fraction by writing each term in the numerator over the denominator.\n \n\nSimplify the first term. Rewrite the numerator and denominator in the second term by using the ratio and reciprocal identities.\n \n\nSimplify the complex fraction by flipping the denominator and multiplying it by the numerator.\n \n","item_vector":null},"titleHighlight":null,"descriptionHighlights":null,"headers":null},{"objectType":"article","id":146754,"data":{"title":"Getting Started with Trig Identities","slug":"getting-started-with-trig-identities","update_time":"2016-03-26T08:21:18+00:00","object_type":"article","image":null,"breadcrumbs":[{"name":"Academics & The Arts","slug":"academics-the-arts","categoryId":33662},{"name":"Math","slug":"math","categoryId":33720},{"name":"Pre-Calculus","slug":"pre-calculus","categoryId":33727}],"description":"You need to become more familiar with the possibilities for rewriting trigonometric expressions. A trig identity is really an equivalent expression or form of a function that you can use in place of the original. The equivalent format may make factoring easier, solving an application possible, and (later) performing an operation in calculus more manageable.\nThe trigonometric identities are divided into many different classifications. These groupings help you remember the identities and make determining which identity to use in a particular substitution easier.\nIn a classic trig identity problem, you try to make one side of the equation match the other side. The best way to do so is to work on just one side — the left or the right — but sometimes you need to work on both sides to see just how to work the problem to the end.\nIn pre-calculus, you’ll work with the basic trigonometric identities in the following ways:\n\n Determining which trig functions are reciprocals of one another\n \n Creating Pythagorean identities from a right triangle whose hypotenuse measures 1 unit\n \n Determining the sign of identities whose angle measure is negated\n \n Matching up trig functions and their co-functions\n \n Using the periods of functions in identities\n \n Making the most of selected substitutions into identities\n \n Working on only one side of the identity\n \n Figuring out where to go with an identity by working both sides at once\n \n\nDon’t let common mistakes trip you up; keep in mind that when working on trigonometric identities, some challenges will include the following:\n\n Keeping track of where the 1 goes in the Pythagorean identities\n \n Remembering the middle term when squaring binomials involving trig functions\n \n Correctly rewriting Pythagorean identities when solving for a squared term\n \n Recognizing the exponent notation\n \n\nPractice problems\n\n Prove the trig identity. Indicate your first identity substitution:\n\nAnswer: use the reciprocal identity\nBecause each term contains a function and its reciprocal, using reciprocal identities will simplify the terms quickly.\nFirst, replace\n\nwith its reciprocal identity,\n\nand\n\nwith its reciprocal identity:\n\nThen simplify the complex fractions.\n\nFinally, replace\n\nwith 1, using the Pythagorean identity: 1 = 1\n \n Determine the missing term or factor in the identity by changing all functions to those using sine or cosine:\n\nAnswer: 1\nUse the reciprocal identity to replace csc2x and use the ratio identity to replace tan2x:\n\nDistribute\n\nsimplify, and then combine the two terms:\n\nRewrite the Pythagorean identity, sin2x + cos2x = 1, by subtracting sin2x from each side to get cos2x = 1 – sin2x. Replace the numerator of the fraction in the identity with cos2x:\n\nThe missing term is 1.\n \n","item_vector":null},"titleHighlight":null,"descriptionHighlights":null,"headers":null},{"objectType":"article","id":186923,"data":{"title":"When to Factor a Trigonometry Identity","slug":"when-to-factor-a-trigonometry-identity","update_time":"2016-03-26T20:18:10+00:00","object_type":"article","image":null,"breadcrumbs":[{"name":"Academics & The Arts","slug":"academics-the-arts","categoryId":33662},{"name":"Math","slug":"math","categoryId":33720},{"name":"Trigonometry","slug":"trigonometry","categoryId":33729}],"description":"You’ll know that you need to factor a trig identity when powers of a particular function or repeats of that same function are in all the terms on one side of the identity.\nFor example, the expression sin4θ + 2sin2θcos2θ + cos4θ has three terms that you can factor, because they’re the result of squaring a binomial. The pattern you need is the algebraic equivalence a2 + 2ab + b2 = (a + b)2.\n\n\nFactor the expression sin4θ + 2sin2θcos2θ + cos4θ as the square of a binomial.\n(sin2θ + cos2θ)2 = 1\n\n\nNow just replace the expression in the parentheses with its equivalent by using the Pythagorean identity.\n(1)2 = 1\n\n\nThe preceding example was really simple — as long as you recognized the pattern. It’d be another thing altogether if you went off on some tangent (pardon the pun).\nIn the next example, the factoring occurs in the numerator of the fraction, where powers of sin x appear. Solve the identity\n\n\n\nFactor sin x out of each term in the numerator.\n \n\nReplace the expression in the parentheses with its equivalent by using the Pythagorean identity.\n \n\nNow split up the fraction into a product of two fractions, carefully arranging the numerator and denominator.\n \n\nReplace the first fraction with tan x by using the ratio identity.\n \n\nThis last example requires factoring by using the difference between two squares. The pattern here is the algebraic equation a2 – b2 = (a – b)(a + b) or a4 – b4 = (a2 – b2)(a2 + b2). Solve the identity csc2θ + cot2θ = csc4θ – cot4θ.\n\n\nFactor the two terms on the right by using the difference-of-squares equation.\n \n\nIn the left set of parentheses only, replace the csc2θ with its equivalent in the Pythagorean identity.\nYou want to keep the two terms in the right parentheses.\n \n\nNow simplify the expression, getting rid of the two opposites.\n \n","item_vector":null},"titleHighlight":null,"descriptionHighlights":null,"headers":null},{"objectType":"article","id":146759,"data":{"title":"Beyond the Basics with Trig Identities","slug":"beyond-the-basics-with-trig-identities","update_time":"2016-03-26T08:21:23+00:00","object_type":"article","image":null,"breadcrumbs":[{"name":"Academics & The Arts","slug":"academics-the-arts","categoryId":33662},{"name":"Math","slug":"math","categoryId":33720},{"name":"Pre-Calculus","slug":"pre-calculus","categoryId":33727}],"description":"The basic trig identities will get you through most problems and applications involving trigonometry. But if you’re going to broaden your horizons and study more and more mathematics, you’ll find some additional identities crucial to your success. Also, in some of the sciences, especially physics, these specialized identities come up in the most unlikely (and likely) places.\nThese trigonometric identities are broken into groups, depending on whether you’re trying to combine angles or split them apart, increase exponents or reduce them, and so on. The groupings can help you to decide which identity to use in which situation. Keep a list of these identities handy, because you’ll want to refer to them as you work through the problems.\nYou’ll work with the more-advanced trig identities in the following ways:\n\n Using the function values of two angles to determine the function value of the sum of the angles\n \n Applying the identities for the difference between two angles\n \n Making use of the half-angle identities\n \n Working from product-to-sum and sum-to-product identities\n \n Using the periods of functions in identities\n \n Applying power-reducing identities\n \n Deciding which identity to use first\n \n\nWhen you’re working on these particular trig identities, some challenges will include the following:\n\n Applying the identities using the correct order of operations\n \n Simplifying the radicals correctly in half-angle identities\n \n Making the correct choices between positive and negative identities\n \n\nPractice problems\n\n Use a sum or difference identity to determine the missing term in the identity:\n\nAnswer: \n\nUse the cosine-of-a-difference identity:\n\n \n Use a double-angle identity to determine the missing term in the identity.\n\nAnswer: 0\nReplace\n\nwith the double-angle identity involving the cosine:\n\nReplace the 1 with\n\nfrom the Pythagorean identity:\n\n \n","item_vector":null},"titleHighlight":null,"descriptionHighlights":null,"headers":null}]},"relatedArticlesStatus":"success"},"routeState":{"name":"Article3","path":"/article/academics-the-arts/math/trigonometry/how-to-work-both-sides-of-a-trig-identity-186942/","hash":"","query":{},"params":{"category1":"academics-the-arts","category2":"math","category3":"trigonometry","article":"how-to-work-both-sides-of-a-trig-identity-186942"},"fullPath":"/article/academics-the-arts/math/trigonometry/how-to-work-both-sides-of-a-trig-identity-186942/","meta":{"routeType":"article","breadcrumbInfo":{"suffix":"Articles","baseRoute":"/category/articles"},"prerenderWithAsyncData":true},"from":{"name":null,"path":"/","hash":"","query":{},"params":{},"fullPath":"/","meta":{}}},"dropsState":{"submitEmailResponse":false,"status":"initial"},"profileState":{"auth":{},"userOptions":{},"status":"success"}}

How to Work Both Sides of a Trig Identity

By: Mary Jane Sterling and

Updated: 03-26-2016

Trigonometry Workbook For Dummies

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With a trigonometry identity, working on both sides of the equation is even more fun than working on both sides of an algebraic equation. In algebra, you can multiply each side by the same number, square both sides, add or subtract the same thing to each side, and so on. When you solve trig identities and equations, you can use all those algebra rules plus you can do substitutions with the various trig identities when you need them. You can even insert a different identity on each side — the one big advantage of working on both sides of a trig identity.

This first example is rather basic, but it gets the idea across. Solve the identity

by working both sides.

Change the functions that aren’t one of the three basic functions by using their reciprocal identities.
Simplify the two fractions on the left by flipping the denominators and multiplying them by their numerators.

Then multiply the two factors on the right together.
Replace the sum on the left by using the Pythagorean identity.

You end up with 1 = 1.

In the next example, you change everything to sines and cosines. Prove the identity

Change the functions to their equivalences by using the reciprocal and ratio identities.
On the left, flip the denominator and multiply it by the numerator.

On the right, multiply each fraction by a fraction equal to 1 (by using the other fraction’s denominator) to get common denominators for all the fractions.
Simplify the multiplied fractions.

Add the two fractions on the right together.
Replace the numerator on the right with the value from the Pythagorean identity.

This last example requires a little creativity to get the job done. But working on both sides still works best when showing that the following is an identity:

Split up the fraction on the left by writing each term in the numerator over the denominator.
Reduce the second fraction to 1.
Replace the csc² on the right with its equivalent by using the Pythagorean identity.
Simplify the terms on the right — two are opposites of one another.
Replace the fraction on the left by using the reciprocal identity.

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